; Fri Nov 14 13:52:42 EST 2003
;
;+ (version "1.8")
;+ (build "Build 1074")
([%22This+is+a+string%22] of %3AAbstractString
(%3ASUO-name "\"This is a string\""))
([%28AbsoluteValueFn+RealNumber%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28AbstractionFn+Class%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28AdditionFn+Quantity+Quantity%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28BackFn+SelfConnectedObject%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28BeginFn+TimeInterval%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28BeginNodeFn+GraphPath%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28CardinalityFn+%28UnionFn+SetOrClass+Collection%29%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28CeilingFn+RealNumber%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28ComplementFn+SetOrClass%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28CosineFn+PlaneAngleMeasure%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28CutSetFn+Graph%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28DayFn+PositiveRealNumber+Month%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28DenominatorFn+RealNumber%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28DivisionFn+Quantity+Quantity%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28EditionFn+ContentBearingObject+PositiveInteger%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28EndFn+TimeInterval%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28EndNodeFn+GraphPath%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28ExponentiationFn+Quantity+Integer%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28ExtensionFn+Attribute%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28FloorFn+RealNumber%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28FrontFn+SelfConnectedObject%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28FutureFn+TimePosition%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28GeneralizedIntersectionFn+SetOrClass%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28GeneralizedUnionFn+SetOrClass%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28GigaFn+UnitOfMeasure%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28GovernmentFn+GeopoliticalArea%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28GraphPathFn+GraphNode+GraphNode%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28HourFn+PositiveRealNumber+Day%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28ImaginaryPartFn+ComplexNumber%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28ImmediateFamilyFn+Human%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28ImmediateFutureFn+TimePosition%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28ImmediatePastFn+TimePosition%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28InitialNodeFn+GraphArc%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28IntegerSquareRootFn+RealNumber%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28IntersectionFn+SetOrClass+SetOrClass%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28IntervalFn+ConstantQuantity+ConstantQuantity%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28KappaFn+SymbolicString+Formula%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28KiloFn+UnitOfMeasure%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28ListConcatenateFn+List+List%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28ListLengthFn+List%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28ListOrderFn+List+PositiveInteger%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28LogFn+RealNumber+PositiveInteger%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28MagnitudeFn+ConstantQuantity%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28MaxFn+Quantity+Quantity%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28MaximalWeightedPathFn+GraphNode+GraphNode%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28MeasureFn+RealNumber+UnitOfMeasure%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28MegaFn+UnitOfMeasure%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28MereologicalDifferenceFn+Object+Object%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28MereologicalProductFn+Object+Object%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28MereologicalSumFn+Object+Object%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28MicroFn+UnitOfMeasure%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28MilliFn+UnitOfMeasure%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28MinFn+Quantity+Quantity%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28MinimalCutSetFn+Graph%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28MinimalWeightedPathFn+GraphNode+GraphNode%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28MinuteFn+PositiveRealNumber+Hour%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28MonthFn+Month+Year%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28MultiplicationFn+Quantity+Quantity%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28NanoFn+UnitOfMeasure%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28NumeratorFn+RealNumber%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28PastFn+TimePosition%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28PathWeightFn+GraphPath%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28PerFn+ConstantQuantity+ConstantQuantity%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28PeriodicalIssueFn+Periodical+PositiveInteger%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28PicoFn+UnitOfMeasure%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28PowerSetFn+SetOrClass%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28PredecessorFn+Integer%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28PrincipalHostFn+Hole%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28ProbabilityFn+Formula%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28PropertyFn+Agent%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28RationalNumberFn+Number%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28RealNumberFn+Number%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28ReciprocalFn+Quantity%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28RecurrentTimeIntervalFn+TimeInterval+TimeInterval%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28RelativeComplementFn+SetOrClass+SetOrClass%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28RelativeTimeFn+TimePosition+TimeZone%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28RemainderFn+Quantity+Quantity%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28RoundFn+Quantity%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28SecondFn+PositiveRealNumber+Minute%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28SeriesVolumeFn+Series+PositiveInteger%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28SignumFn+RealNumber%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28SineFn+PlaneAngleMeasure%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28SkinFn+Hole%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28SquareRootFn+RealNumber%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28SubtractionFn+Quantity+Quantity%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28SuccessorFn+Integer%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28TangentFn+PlaneAngleMeasure%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28TemporalCompositionFn+TimeInterval+TimeInterval%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28TeraFn+UnitOfMeasure%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28TerminalNodeFn+GraphArc%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28TimeIntervalFn+TimePoint+TimePoint%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28UnionFn+SetOrClass+SetOrClass%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28WealthFn+Agent%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28WhenFn+Physical%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28WhereFn+Physical+TimePoint%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%28YearFn+Integer%29] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%3AAbstractString] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([%3AAssertion] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([%3AAXIOMS] of %3AUBL-SLOT
(%3AASSOCIATED-FACET [UBLinv014_00277]))
([%3AClass] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([%3ACodeList] of %3ASYN-CLASS
(%3ALOAD-SEQUENCE 0)
(%3ASYNONYMS [UBLcore_00353])
(%3AisInModule [KIF-core]))
([%3AConstructedLanguage] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([%3ADomain1Type] of %3AUBL-SLOT
(%3AASSOCIATED-FACET [UBLinv018_00290]))
([%3ADomain2Class] of %3AUBL-SLOT
(%3AASSOCIATED-FACET [SUMO148_00000])
(%3ADomain1Type Instance))
([%3ADomain2Type] of %3AUBL-SLOT
(%3AASSOCIATED-FACET [UBLinv018_00288]))
([%3ADomain2Value] of %3AUBL-SLOT
(%3AASSOCIATED-FACET [SUMO152_00100]))
([%3ADomain3Class] of %3AUBL-SLOT
(%3AASSOCIATED-FACET [UBLcore_00000]))
([%3ADomain3Type] of %3AUBL-SLOT
(%3AASSOCIATED-FACET [UBLinv018t_00300]))
([%3ADomain3Value] of %3AUBL-SLOT
(%3AASSOCIATED-FACET [SUMO152_00102]))
([%3ADomain4Class] of %3AUBL-SLOT
(%3AASSOCIATED-FACET [UBLinv018t_00302]))
([%3ADomain4Type] of %3AUBL-SLOT
(%3AASSOCIATED-FACET [UBLinv018t_00306]))
([%3ADomain4Value] of %3AUBL-SLOT
(%3AASSOCIATED-FACET [UBLinv018t_00304]))
([%3AEmbeddedComment] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([%3AGroup] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([%3AhasFrequency] of %3AUBL-SLOT
(%3ASUO-name ":hasFrequency"))
([%3AhasUsage] of %3AUBL-SLOT
(%3ASUO-name ":hasUsage"))
([%3AHumanLanguage] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([%3AinLanguage] of %3AUBL-SLOT
(%3ASUO-name ":inLanguage"))
([%3AisInModule] of %3AUBL-SLOT
(%3AASSOCIATED-FACET [UBLinv018t_00322]))
([%3AKIFentity] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([%3ALanguage] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([%3AList] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([%3AModule] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([%3ANaturalLanguage] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([%3AOrderedSet] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0))
([%3AProtegeSymbolList] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([%3ARow] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([%3ASet] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([%3ASetOrClass] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([%3ASKIFdocs] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([%3AStringList] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([%3ASUMOProposition] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([%3ASUO-name] of %3AUBL-SLOT
(%3AASSOCIATED-FACET [KIFcore2_00373]))
([%3ASynonym] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([%3ASYNONYMS] of %3AUBL-SLOT
(%3AASSOCIATED-FACET [SKIFcore4_00382]))
([%3AUnclassifiedProposition] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([%3C%3D%3E] of BinaryPredicate
(%3Adocumentation "\"The truth-functional connective of bi-implication.\"")
(%3AidenticalTo
"Instance(<=>_1 of Cls(LogicalOperator))"
"Slot(<=>_2)")
(%3ASUO-name "<=>"))
([%3C%3D%3E_1] of LogicalOperator
(%3AidenticalTo
"Instance(<=> of Cls(BinaryPredicate))"
"Slot(<=>_2)")
(%3Adocumentation "\"The truth-functional connective of bi-implication.\"")
(%3ASUO-name "<=>"))
([%3C%3D%3E_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 86)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(<=> of Cls(BinaryPredicate))"
"Instance(<=>_1 of Cls(LogicalOperator))")
(%3ASUO-name "<=>"))
([%3D%3E] of BinaryPredicate
(%3Adocumentation "\"The truth-functional connective of implication.\"")
(%3AidenticalTo
"Instance(=>_1 of Cls(LogicalOperator))"
"Slot(=>_2)")
(%3ASUO-name "=>"))
([%3D%3E_1] of LogicalOperator
(%3AidenticalTo
"Instance(=> of Cls(BinaryPredicate))"
"Slot(=>_2)")
(%3Adocumentation "\"The truth-functional connective of implication.\"")
(%3ASUO-name "=>"))
([%3D%3E_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 85)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(=>_1 of Cls(LogicalOperator))"
"Instance(=> of Cls(BinaryPredicate))")
(%3ASUO-name "=>"))
([%3FTHING] of Entity
(%3AAXIOMS "\n(UAX-045)\n(exists (?THING) (instance ?THING Entity))\n\n(UAX-046)\n(<=>\n (instance ?CLASS Class)\n (subclass ?CLASS Entity))\n")
(%3ASUO-name "?THING"))
([AbnormalAnatomicalStructure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1655)
(disjoint [BodyPart])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-695]))
([Above] of PositionalAttribute
(contraryAttribute_2 [Below])
(%3Adocumentation "\"This is a &%PositionalAttribute derived from the up/down schema and not involving contact. Note that this means directly above, i.e., if one object is &%Above another object, then the projections of the two objects overlap.\"")
(%3AAXIOMS "\n(UAX-802)\n(=>\n (orientation ?OBJ1 ?OBJ2 Above)\n (not\n (connected ?OBJ1 ?OBJ2)))\n")
(%3ASUO-name "Above"))
([AbsoluteValueFn] of UnaryFunction
(%3Adocumentation "\"The value of (&%AbsoluteValueFn ?NUMBER) is the absolute value of the &%RealNumber ?NUMBER.\"")
(%3AidenticalTo
"Slot(AbsoluteValueFn_2)"
"Instance(AbsoluteValueFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "AbsoluteValueFn"))
([AbsoluteValueFn_1] of TotalValuedRelation
(%3AidenticalTo
"Slot(AbsoluteValueFn_2)"
"Instance(AbsoluteValueFn of Cls(UnaryFunction))")
(%3Adocumentation "\"The value of (&%AbsoluteValueFn ?NUMBER) is the absolute value of the &%RealNumber ?NUMBER.\"")
(%3ASUO-name "AbsoluteValueFn"))
([AbsoluteValueFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 491)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(AbsoluteValueFn_1 of Cls(TotalValuedRelation))"
"Instance(AbsoluteValueFn of Cls(UnaryFunction))")
(%3AAXIOMS "\n(UAX-195)\n(<=>\n (and\n (equal (AbsoluteValueFn ?NUMBER1) ?NUMBER2)\n (instance ?NUMBER1 RealNumber)\n (instance ?NUMBER2 RealNumber))\n (or\n (and\n (instance ?NUMBER1 NonnegativeRealNumber)\n (equal ?NUMBER1 ?NUMBER2))\n (and\n (instance ?NUMBER1 NegativeRealNumber)\n (equal ?NUMBER2 (SubtractionFn 0 ?NUMBER1)))))\n")
(%3ASUO-name "AbsoluteValueFn"))
([Abstract] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 185)
(disjoint [Physical])
(disjointDecomposition
[Quantity]
[Attribute]
[SetOrClass]
[Relation]
[Proposition]
[Graph]
[GraphElement])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-072]))
([AbstractionFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%Class into the instance of &%Attribute that specifies the condition(s) for membership in the &%Class.\"")
(%3AidenticalTo
"Slot(AbstractionFn_2)"
"Instance(AbstractionFn_1 of Cls(PartialValuedRelation))")
(%3ASUO-name "AbstractionFn"))
([AbstractionFn_1] of PartialValuedRelation
(%3AidenticalTo
"Slot(AbstractionFn_2)"
"Instance(AbstractionFn of Cls(UnaryFunction))")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%Class into the instance of &%Attribute that specifies the condition(s) for membership in the &%Class.\"")
(%3ASUO-name "AbstractionFn"))
([AbstractionFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 193)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(AbstractionFn of Cls(UnaryFunction))"
"Instance(AbstractionFn_1 of Cls(PartialValuedRelation))")
(%3AAXIOMS "\n(UAX-073)\n(<=>\n (equal (AbstractionFn ?CLASS) ?ATTR)\n (forall (?INST)\n (<=>\n (instance ?INST ?CLASS)\n (property ?INST ?ATTR))))\n")
(%3ASUO-name "AbstractionFn"))
([AdditionFn] of BinaryFunction
(%3AidenticalTo
"Instance(AdditionFn_3 of Cls(RelationExtendedToQuantities))"
"Instance(AdditionFn_4 of Cls(TotalValuedRelation))"
"Instance(AdditionFn_1 of Cls(AssociativeFunction))"
"Instance(AdditionFn_2 of Cls(CommutativeFunction))"
"Slot(AdditionFn_5)")
(%3Adocumentation "\"If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%AdditionFn ?NUMBER1 ?NUMBER2) is the arithmetical sum of these numbers.\"")
(%3ASUO-name "AdditionFn"))
([AdditionFn_1] of AssociativeFunction
(%3Adocumentation "\"If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%AdditionFn ?NUMBER1 ?NUMBER2) is the arithmetical sum of these numbers.\"")
(%3AidenticalTo
"Instance(AdditionFn_3 of Cls(RelationExtendedToQuantities))"
"Instance(AdditionFn_4 of Cls(TotalValuedRelation))"
"Instance(AdditionFn_2 of Cls(CommutativeFunction))"
"Slot(AdditionFn_5)"
"Instance(AdditionFn of Cls(BinaryFunction))")
(%3ASUO-name "AdditionFn"))
([AdditionFn_2] of CommutativeFunction
(%3Adocumentation "\"If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%AdditionFn ?NUMBER1 ?NUMBER2) is the arithmetical sum of these numbers.\"")
(%3AidenticalTo
"Instance(AdditionFn_3 of Cls(RelationExtendedToQuantities))"
"Instance(AdditionFn_4 of Cls(TotalValuedRelation))"
"Instance(AdditionFn_1 of Cls(AssociativeFunction))"
"Slot(AdditionFn_5)"
"Instance(AdditionFn of Cls(BinaryFunction))")
(%3ASUO-name "AdditionFn"))
([AdditionFn_3] of RelationExtendedToQuantities
(%3AidenticalTo
"Instance(AdditionFn_4 of Cls(TotalValuedRelation))"
"Instance(AdditionFn_1 of Cls(AssociativeFunction))"
"Instance(AdditionFn_2 of Cls(CommutativeFunction))"
"Slot(AdditionFn_5)"
"Instance(AdditionFn of Cls(BinaryFunction))")
(%3Adocumentation "\"If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%AdditionFn ?NUMBER1 ?NUMBER2) is the arithmetical sum of these numbers.\"")
(%3ASUO-name "AdditionFn"))
([AdditionFn_4] of TotalValuedRelation
(%3AidenticalTo
"Instance(AdditionFn_3 of Cls(RelationExtendedToQuantities))"
"Instance(AdditionFn_1 of Cls(AssociativeFunction))"
"Instance(AdditionFn_2 of Cls(CommutativeFunction))"
"Slot(AdditionFn_5)"
"Instance(AdditionFn of Cls(BinaryFunction))")
(%3Adocumentation "\"If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%AdditionFn ?NUMBER1 ?NUMBER2) is the arithmetical sum of these numbers.\"")
(%3ASUO-name "AdditionFn"))
([AdditionFn_5] of %3ATernarySlot
(%3ALOAD-SEQUENCE 485)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain2Class Quantity)
(%3AidenticalTo
"Instance(AdditionFn_3 of Cls(RelationExtendedToQuantities))"
"Instance(AdditionFn_4 of Cls(TotalValuedRelation))"
"Instance(AdditionFn_1 of Cls(AssociativeFunction))"
"Instance(AdditionFn_2 of Cls(CommutativeFunction))"
"Instance(AdditionFn of Cls(BinaryFunction))")
(%3AAXIOMS "\n(UAX-192)\n(equal (SuccessorFn ?NUMBER) (AdditionFn ?NUMBER 1))\n")
(%3ASUO-name "AdditionFn"))
([Adjacent] of PositionalAttribute
(%3Adocumentation "\"Used to assert that an object ?OBJ1 is close to, near or abutting ?OBJ2. This &%PositionalAttribute covers the following common sense notions: adjoins, abuts, is contiguous to, is juxtaposed, and is close to.\"")
(%3AAXIOMS "\n(UAX-804)\n(<=>\n (orientation ?OBJ1 ?OBJ2 Adjacent)\n (or\n (orientation ?OBJ1 ?OBJ2 Near)\n (connected ?OBJ1 ?OBJ2)))\n")
(%3ASUO-name "Adjacent"))
([Adjective] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1691)
(disjoint
[Noun]
[Verb]
[Adverb]
[Particle])
(%3AisInModule [OBJECTS]))
([Adverb] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1692)
(disjoint
[Noun]
[Verb]
[Adjective]
[Particle])
(%3AisInModule [OBJECTS]))
([Advertising] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1412)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-602]))
([age] of SingleValuedRelation
(%3AidenticalTo
"Instance(age_2 of Cls(BinaryPredicate))"
"Slot(age_1)")
(%3Adocumentation "\"Simply relates an &%Object to a &%ConstantQuantity specifying the age of the &%Object.\"")
(%3ASUO-name "age"))
([age_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 830)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(age_2 of Cls(BinaryPredicate))"
"Instance(age of Cls(SingleValuedRelation))")
(%3ASUO-name "age"))
([age_2] of BinaryPredicate
(%3AidenticalTo
"Instance(age of Cls(SingleValuedRelation))"
"Slot(age_1)")
(%3ASUO-name "age"))
([AgeGroup] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1821)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-771]))
([Agent] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 177)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-070]))
([agent] of CaseRole
(%3Adocumentation "\"(&%agent ?PROCESS ?AGENT) means that ?AGENT is an active determinant, either animate or inanimate, of the &%Process ?PROCESS, with or without voluntary intention. For example, water is the &%agent of erosion in the following proposition: the water eroded the coastline. For another example, Eve is an &%agent in the following proposition: Eve bit an apple.\"")
(%3AidenticalTo "Slot(agent_1)")
(%3ASUO-name "agent"))
([agent_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 275)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(agent of Cls(CaseRole))")
(%3AAXIOMS "\n(UAX-097)\n(=>\n (instance ?PROCESS Process)\n (exists (?CAUSE)\n (agent ?PROCESS ?CAUSE)))\n")
(%3ASUO-name "agent"))
([Air] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1634)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-684]))
([AlethicAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1956)
(%3AisInModule [QUALITIES]))
([Alga] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1572)
(disjoint
[Fern]
[Fungus]
[Moss])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-671]))
([altitude] of SingleValuedRelation
(%3AidenticalTo
"Slot(altitude_1)"
"Instance(altitude_3 of Cls(SpatialRelation))"
"Instance(altitude_2 of Cls(TernaryPredicate))")
(%3Adocumentation "\"A &%TernaryPredicate that is used to state the &%distance between the &%top of an &%Object and another point that is below the &%top of the &%Object (often this other point will be sea level). Note that this &%Predicate can be used to specify, for example, the height of geographic features, e.g. mountains, the altitude of aircraft, and the orbit of satellites around the Earth.\"")
(%3ASUO-name "altitude"))
([altitude_1] of %3ATernarySlot
(%3ALOAD-SEQUENCE 836)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain2Class Physical)
(%3AidenticalTo
"Instance(altitude_3 of Cls(SpatialRelation))"
"Instance(altitude of Cls(SingleValuedRelation))"
"Instance(altitude_2 of Cls(TernaryPredicate))")
(%3AAXIOMS "\n(UAX-313)\n(=>\n (altitude ?OBJ1 ?OBJ2 ?HEIGHT)\n (orientation ?OBJ1 ?OBJ2 Above))\n\n(UAX-314)\n(=>\n (altitude ?OBJ1 ?OBJ2 ?HEIGHT)\n (exists (?TOP)\n (and\n (top ?TOP ?OBJ1)\n (distance ?TOP ?OBJ2 ?HEIGHT))))\n")
(%3ASUO-name "altitude"))
([altitude_2] of TernaryPredicate
(%3AidenticalTo
"Slot(altitude_1)"
"Instance(altitude_3 of Cls(SpatialRelation))"
"Instance(altitude of Cls(SingleValuedRelation))")
(%3ASUO-name "altitude"))
([altitude_3] of SpatialRelation
(%3AidenticalTo
"Slot(altitude_1)"
"Instance(altitude of Cls(SingleValuedRelation))"
"Instance(altitude_2 of Cls(TernaryPredicate))")
(%3ASUO-name "altitude"))
([Ambulating] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1205)
(partition
[Walking]
[Running])
(%3AisInModule [PROCESSES]))
([Ampere] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 692)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Ampere_1 of Cls(SystemeInternationalUnit))"))
([Ampere_1] of SystemeInternationalUnit
(%3Adocumentation "SI electric current measure. Symbol: A. It is one of the base units in SI. It is defined as follows: the &%Ampere is that constant current which, if maintained in two straight parallel conductors of infinite length, of negligible circular cross-section, and placed 1 &%Meter apart in a vacuum, would produce between these conductors a force equal to 2*10^(-7) &%Newton per &%Meter of length.")
(%3AidenticalTo "Cls(Ampere)"))
([Amphibian] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1598)
(disjoint
[Fish]
[Reptile])
(%3AisInModule [OBJECTS]))
([Amu] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 760)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-286])
(%3AidenticalTo "Instance(Amu_1 of Cls(UnitOfMeasure))"))
([Amu_1] of UnitOfMeasure
(%3AidenticalTo "Cls(Amu)")
(%3Adocumentation "Atomic mass unit. Symbol: u. It is the mass of the twelfth part of an atom of the Carbon 12 isotope."))
([AnatomicalStructure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1652)
(disjoint [Organism])
(partition2
[AnimalAnatomicalStructure]
[PlantAnatomicalStructure])
(partition
[BodyPart]
[AbnormalAnatomicalStructure])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS
[UAX-693]
[UAX-694]))
([ancestor] of TransitiveRelation
(%3Adocumentation "\"The transitive closure of the &%parent predicate. (&%ancestor ?DESCENDANT ?ANCESTOR) means that ?ANCESTOR is either the &%parent of ?DESCENDANT or the &%parent of the &%parent of &%DESCENDANT or etc.\"")
(%3AidenticalTo
"Instance(ancestor_1 of Cls(IrreflexiveRelation))"
"Instance(ancestor_3 of Cls(BinaryPredicate))"
"Slot(ancestor_2)")
(%3ASUO-name "ancestor"))
([ancestor_1] of IrreflexiveRelation
(%3Adocumentation "\"The transitive closure of the &%parent predicate. (&%ancestor ?DESCENDANT ?ANCESTOR) means that ?ANCESTOR is either the &%parent of ?DESCENDANT or the &%parent of the &%parent of &%DESCENDANT or etc.\"")
(%3AidenticalTo
"Instance(ancestor_3 of Cls(BinaryPredicate))"
"Slot(ancestor_2)"
"Instance(ancestor of Cls(TransitiveRelation))")
(%3ASUO-name "ancestor"))
([ancestor_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1566)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(ancestor_1 of Cls(IrreflexiveRelation))"
"Instance(ancestor_3 of Cls(BinaryPredicate))"
"Instance(ancestor of Cls(TransitiveRelation))")
(%3AAXIOMS "\n(UAX-670)\n(=>\n (parent ?PARENT ?CHILD)\n (ancestor ?PARENT ?CHILD))\n")
(%3ASUO-name "ancestor"))
([ancestor_3] of BinaryPredicate
(%3AidenticalTo
"Instance(ancestor_1 of Cls(IrreflexiveRelation))"
"Slot(ancestor_2)"
"Instance(ancestor of Cls(TransitiveRelation))")
(%3ASUO-name "ancestor"))
([and] of VariableArityRelation
(%3AidenticalTo
"Instance(and_1 of Cls(LogicalOperator))"
"Slot(and_2)")
(%3Adocumentation "\"The truth-functional connective of conjunction.\"")
(%3ASUO-name "and"))
([and_1] of LogicalOperator
(%3AidenticalTo
"Instance(and of Cls(VariableArityRelation))"
"Slot(and_2)")
(%3Adocumentation "\"The truth-functional connective of conjunction.\"")
(%3ASUO-name "and"))
([and_2] of %3AVariableAritySlot
(%3ALOAD-SEQUENCE 83)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(and of Cls(VariableArityRelation))"
"Instance(and_1 of Cls(LogicalOperator))")
(%3ASUO-name "and"))
([AngleMeasure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 651)
(%3AisInModule [UNITS_OF_MEASURE]))
([angleOfFigure] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 2033)
(%3AisInModule [QUALITIES])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(angleOfFigure_1 of Cls(BinaryPredicate))")
(%3ASUO-name "angleOfFigure"))
([angleOfFigure_1] of BinaryPredicate
(%3AidenticalTo "Slot(angleOfFigure)")
(%3ASUO-name "angleOfFigure"))
([Angstrom] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 765)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-288])
(%3AidenticalTo "Instance(Angstrom_1 of Cls(UnitOfMeasure))"))
([Angstrom_1] of UnitOfMeasure
(%3AidenticalTo "Cls(Angstrom)")
(%3Adocumentation "The &%Angstrom is a &%LengthMeasure. 1 &%Angstrom = 10^(-10) m"))
([AngularDegree] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 807)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS
[UAX-304]
[UAX-305]
[UAX-306])
(%3AidenticalTo "Instance(AngularDegree_1 of Cls(UnitOfMeasure))"))
([AngularDegree_1] of UnitOfMeasure
(%3AidenticalTo "Cls(AngularDegree)")
(%3Adocumentation "A plane angle measure."))
([angularMeasure] of BinaryPredicate
(%3Adocumentation "\"(&%angularMeasure ?ANGLE ?MEASURE) means that the two-dimensional geometric angle ?ANGLE has the &%PlaneAngleMeasure of ?MEASURE.\"")
(%3AidenticalTo
"Instance(angularMeasure_1 of Cls(TotalValuedRelation))"
"Slot(angularMeasure_2)")
(%3ASUO-name "angularMeasure"))
([angularMeasure_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(angularMeasure of Cls(BinaryPredicate))"
"Slot(angularMeasure_2)")
(%3Adocumentation "\"(&%angularMeasure ?ANGLE ?MEASURE) means that the two-dimensional geometric angle ?ANGLE has the &%PlaneAngleMeasure of ?MEASURE.\"")
(%3ASUO-name "angularMeasure"))
([angularMeasure_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 2038)
(%3AisInModule [QUALITIES])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(angularMeasure_1 of Cls(TotalValuedRelation))"
"Instance(angularMeasure of Cls(BinaryPredicate))")
(%3ASUO-name "angularMeasure"))
([AnimacyAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2069)
(%3AisInModule [QUALITIES]))
([Animal] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1578)
(disjoint
[Plant]
[Microorganism])
(partition
[Vertebrate]
[Invertebrate])
(%3AisInModule [OBJECTS]))
([AnimalAnatomicalStructure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1660)
(disjoint [PlantAnatomicalStructure])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-698]))
([AnimalLanguage] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 162)
(disjoint
[HumanLanguage]
[ComputerLanguage])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-066]))
([AnimalSubstance] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1637)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-685]))
([AntisymmetricRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 262)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-092]))
([Ape] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1612)
(disjoint
[Monkey]
[Hominid])
(%3AisInModule [OBJECTS]))
([April] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 951)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS
[UAX-376]
[UAX-377]))
([AquaticMammal] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1603)
(disjoint
[HoofedMammal]
[Marsupial]
[Rodent]
[Primate])
(%3AisInModule [OBJECTS]))
([Arachnid] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1592)
(disjoint
[Myriapod]
[Insect]
[Crustacean])
(%3AisInModule [OBJECTS]))
([arcWeight] of BinaryPredicate
(%3Adocumentation "\"This predicate indicates the value of a &%GraphArc in a &%Graph. This could map to the length of a road in a road network or the flow rate of a pipe in a plumbing system.\"")
(%3AidenticalTo
"Instance(arcWeight_1 of Cls(SingleValuedRelation))"
"Slot(arcWeight_2)")
(%3ASUO-name "arcWeight"))
([arcWeight_1] of SingleValuedRelation
(%3AidenticalTo
"Instance(arcWeight of Cls(BinaryPredicate))"
"Slot(arcWeight_2)")
(%3Adocumentation "\"This predicate indicates the value of a &%GraphArc in a &%Graph. This could map to the length of a road in a road network or the flow rate of a pipe in a plumbing system.\"")
(%3ASUO-name "arcWeight"))
([arcWeight_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 621)
(%3AisInModule [GRAPH_THEORY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(arcWeight of Cls(BinaryPredicate))"
"Instance(arcWeight_1 of Cls(SingleValuedRelation))")
(%3ASUO-name "arcWeight"))
([AreaMeasure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 647)
(%3AisInModule [UNITS_OF_MEASURE]))
([Argument] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1868)
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS
[UAX-786]
[UAX-787]))
([Arthropod] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1591)
(disjoint
[Worm]
[Mollusk])
(disjointDecomposition
[Arachnid]
[Myriapod]
[Insect]
[Crustacean])
(%3AisInModule [OBJECTS]))
([Article] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1736)
(disjoint [Book])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-732]))
([Artifact] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1750)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-738]))
([ArtificialLanguage] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 164)
(%3AisInModule [BASE_ONTOLOGY]))
([ArtWork] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1773)
(%3AisInModule [OBJECTS]))
([AsexualReproduction] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1137)
(disjoint [SexualReproduction])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-474]))
([Asleep] of ConsciousnessAttribute
(%3Adocumentation "\"This &%Attribute applies to &%Organisms that are neither &%Unconscious nor &%Asleep.\""))
([AssignmentFn] of Function
(%3Adocumentation "\"If F is a function with a value for the objects denoted by N1,..., NK, then the term (AssignmentFn F N1 ... NK) denotes the value of applying F to the objects denoted by N1,..., NK. Otherwise, the value is undefined.\"")
(%3AidenticalTo
"Instance(AssignmentFn_1 of Cls(VariableArityRelation))"
"Slot(AssignmentFn_2)")
(%3ASUO-name "AssignmentFn"))
([AssignmentFn_1] of VariableArityRelation
(%3AidenticalTo
"Instance(AssignmentFn of Cls(Function))"
"Slot(AssignmentFn_2)")
(%3Adocumentation "\"If F is a function with a value for the objects denoted by N1,..., NK, then the term (AssignmentFn F N1 ... NK) denotes the value of applying F to the objects denoted by N1,..., NK. Otherwise, the value is undefined.\"")
(%3ASUO-name "AssignmentFn"))
([AssignmentFn_2] of %3AVariableAritySlot
(%3ALOAD-SEQUENCE 93)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(AssignmentFn_1 of Cls(VariableArityRelation))"
"Instance(AssignmentFn of Cls(Function))")
(%3ASUO-name "AssignmentFn"))
([AssociativeFunction] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 365)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-140]))
([AstronomicalBody] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1507)
(disjoint [GeographicArea])
(%3AisInModule [OBJECTS]))
([AsymmetricRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 260)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-091]))
([Atom] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 129)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS
[UAX-055]
[UAX-056]))
([AtomGram] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 789)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(AtomGram_1 of Cls(UnitOfMeasure))"))
([AtomGram_1] of UnitOfMeasure
(%3AidenticalTo "Cls(AtomGram)")
(%3Adocumentation "&%MassMeasure that is also known as the gram-atom. Defined as the mass in grams of 1 &%Mole of pure substance. For example, 1 &%AtomGram of Carbon 12 will be 12 &%Grams of pure Carbon 12. 2 &%AtomGrams of the same substance will be 24 &%Grams of it. This is an unusual unit in that it is essentially 1 &%Mole of 'stuff' measured in grams, so that the actual value (i.e. mass) depends on the type of substance."))
([AtomicNucleus] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 134)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-058]))
([Attaching] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1339)
(disjoint [Detaching])
(relatedInternalConcept "Putting")
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-566]))
([AttachingDevice] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1792)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-757]))
([Attack] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1459)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-623]
[UAX-624]))
([attends] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1411)
(%3AisInModule [PROCESSES])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(attends_1 of Cls(CaseRole))")
(%3ASUO-name "attends"))
([attends_1] of CaseRole
(%3AidenticalTo "Slot(attends)")
(%3ASUO-name "attends"))
([Attribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 189)
(disjoint
[Quantity]
[SetOrClass]
[Relation]
[Proposition]
[Graph]
[GraphElement])
(partition
[InternalAttribute]
[RelationalAttribute])
(%3AisInModule [BASE_ONTOLOGY]))
([attribute] of AsymmetricRelation
(%3Adocumentation "\"(&%attribute ?OBJECT ?PROPERTY) means that ?PROPERTY is a &%Attribute of ?OBJECT. For example, (&%attribute &%MyLittleRedWagon &%Red).\"")
(%3AidenticalTo
"Instance(attribute_1 of Cls(IrreflexiveRelation))"
"Instance(attribute_3 of Cls(BinaryPredicate))"
"Slot(attribute_2)")
(%3ASUO-name "attribute"))
([attribute_1] of IrreflexiveRelation
(%3Adocumentation "\"(&%attribute ?OBJECT ?PROPERTY) means that ?PROPERTY is a &%Attribute of ?OBJECT. For example, (&%attribute &%MyLittleRedWagon &%Red).\"")
(%3AidenticalTo
"Instance(attribute of Cls(AsymmetricRelation))"
"Instance(attribute_3 of Cls(BinaryPredicate))"
"Slot(attribute_2)")
(%3ASUO-name "attribute"))
([attribute_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 191)
(disjointRelation [manner_2])
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(attribute of Cls(AsymmetricRelation))"
"Instance(attribute_1 of Cls(IrreflexiveRelation))"
"Instance(attribute_3 of Cls(BinaryPredicate))")
(%3ASUO-name "attribute"))
([attribute_3] of BinaryPredicate
(%3AidenticalTo
"Instance(attribute of Cls(AsymmetricRelation))"
"Instance(attribute_1 of Cls(IrreflexiveRelation))"
"Slot(attribute_2)")
(%3ASUO-name "attribute"))
([August] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 963)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS
[UAX-384]
[UAX-385]))
([authors] of BinaryPredicate
(%3Adocumentation "\"(&%authors ?AGENT ?TEXT) means that ?AGENT is creatively responsible for ?TEXT. For example, Agatha Christie is author of Murder_on_the_Orient_Express.\"")
(%3AidenticalTo
"Slot(authors_2)"
"Instance(authors_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "authors"))
([authors_1] of AsymmetricRelation
(%3Adocumentation "\"(&%authors ?AGENT ?TEXT) means that ?AGENT is creatively responsible for ?TEXT. For example, Agatha Christie is author of Murder_on_the_Orient_Express.\"")
(%3AidenticalTo
"Slot(authors_2)"
"Instance(authors of Cls(BinaryPredicate))")
(%3ASUO-name "authors"))
([authors_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1717)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(authors of Cls(BinaryPredicate))"
"Instance(authors_1 of Cls(AsymmetricRelation))")
(%3AAXIOMS "\n(UAX-723)\n(=>\n (authors ?AGENT ?TEXT)\n (exists (?PROCESS ?INSTANCE)\n (and\n (agent ?PROCESS ?AGENT)\n (instance ?INSTANCE ?TEXT)\n (result ?PROCESS ?TEXT))))\n")
(%3ASUO-name "authors"))
([AutonomicProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1115)
(disjoint [IntentionalProcess])
(%3AisInModule [PROCESSES]))
([Awake] of ConsciousnessAttribute
(contraryAttribute_2 [Unconscious])
(%3Adocumentation "\"This &%Attribute applies to &%Organisms that are neither &%Unconscious nor &%Asleep.\"")
(%3AAXIOMS "\n(UAX-875)\n(=>\n (or\n (attribute ?AGENT Asleep)\n (attribute ?AGENT Awake))\n (attribute ?AGENT Living))\n")
(%3ASUO-name "Awake"))
([BackFn] of UnaryFunction
(%3Adocumentation "\"A &%Function that maps an &%Object to the side that is opposite the &%FrontFn of the &%Object. Note that this is a partial function, since some &%Objects do not have sides, e.g. apples and spheres. Note too that the &%range of this &%Function is indefinite in much the way that &%ImmediateFutureFn and &%ImmediatePastFn are indefinite. Although this indefiniteness is undesirable from a theoretical standpoint, it does not have significant practical implications, since there is widespread intersubjective agreement about the most common cases.\"")
(%3AidenticalTo
"Instance(BackFn_1 of Cls(SpatialRelation))"
"Instance(BackFn_3 of Cls(AsymmetricRelation))"
"Slot(BackFn_5)"
"Instance(BackFn_2 of Cls(PartialValuedRelation))"
"Instance(BackFn_4 of Cls(IrreflexiveRelation))")
(%3ASUO-name "BackFn"))
([BackFn_1] of SpatialRelation
(%3AidenticalTo
"Instance(BackFn of Cls(UnaryFunction))"
"Instance(BackFn_3 of Cls(AsymmetricRelation))"
"Slot(BackFn_5)"
"Instance(BackFn_2 of Cls(PartialValuedRelation))"
"Instance(BackFn_4 of Cls(IrreflexiveRelation))")
(%3Adocumentation "\"A &%Function that maps an &%Object to the side that is opposite the &%FrontFn of the &%Object. Note that this is a partial function, since some &%Objects do not have sides, e.g. apples and spheres. Note too that the &%range of this &%Function is indefinite in much the way that &%ImmediateFutureFn and &%ImmediatePastFn are indefinite. Although this indefiniteness is undesirable from a theoretical standpoint, it does not have significant practical implications, since there is widespread intersubjective agreement about the most common cases.\"")
(%3ASUO-name "BackFn"))
([BackFn_2] of PartialValuedRelation
(%3AidenticalTo
"Instance(BackFn_1 of Cls(SpatialRelation))"
"Instance(BackFn of Cls(UnaryFunction))"
"Instance(BackFn_3 of Cls(AsymmetricRelation))"
"Slot(BackFn_5)"
"Instance(BackFn_4 of Cls(IrreflexiveRelation))")
(%3Adocumentation "\"A &%Function that maps an &%Object to the side that is opposite the &%FrontFn of the &%Object. Note that this is a partial function, since some &%Objects do not have sides, e.g. apples and spheres. Note too that the &%range of this &%Function is indefinite in much the way that &%ImmediateFutureFn and &%ImmediatePastFn are indefinite. Although this indefiniteness is undesirable from a theoretical standpoint, it does not have significant practical implications, since there is widespread intersubjective agreement about the most common cases.\"")
(%3ASUO-name "BackFn"))
([BackFn_3] of AsymmetricRelation
(%3Adocumentation "\"A &%Function that maps an &%Object to the side that is opposite the &%FrontFn of the &%Object. Note that this is a partial function, since some &%Objects do not have sides, e.g. apples and spheres. Note too that the &%range of this &%Function is indefinite in much the way that &%ImmediateFutureFn and &%ImmediatePastFn are indefinite. Although this indefiniteness is undesirable from a theoretical standpoint, it does not have significant practical implications, since there is widespread intersubjective agreement about the most common cases.\"")
(%3AidenticalTo
"Instance(BackFn_1 of Cls(SpatialRelation))"
"Instance(BackFn of Cls(UnaryFunction))"
"Slot(BackFn_5)"
"Instance(BackFn_2 of Cls(PartialValuedRelation))"
"Instance(BackFn_4 of Cls(IrreflexiveRelation))")
(%3ASUO-name "BackFn"))
([BackFn_4] of IrreflexiveRelation
(%3Adocumentation "\"A &%Function that maps an &%Object to the side that is opposite the &%FrontFn of the &%Object. Note that this is a partial function, since some &%Objects do not have sides, e.g. apples and spheres. Note too that the &%range of this &%Function is indefinite in much the way that &%ImmediateFutureFn and &%ImmediatePastFn are indefinite. Although this indefiniteness is undesirable from a theoretical standpoint, it does not have significant practical implications, since there is widespread intersubjective agreement about the most common cases.\"")
(%3AidenticalTo
"Instance(BackFn_1 of Cls(SpatialRelation))"
"Instance(BackFn of Cls(UnaryFunction))"
"Instance(BackFn_3 of Cls(AsymmetricRelation))"
"Slot(BackFn_5)"
"Instance(BackFn_2 of Cls(PartialValuedRelation))")
(%3ASUO-name "BackFn"))
([BackFn_5] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 112)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(BackFn_1 of Cls(SpatialRelation))"
"Instance(BackFn of Cls(UnaryFunction))"
"Instance(BackFn_3 of Cls(AsymmetricRelation))"
"Instance(BackFn_2 of Cls(PartialValuedRelation))"
"Instance(BackFn_4 of Cls(IrreflexiveRelation))")
(%3AAXIOMS "\n(UAX-049)\n(=>\n (instance ?OBJ SelfConnectedObject)\n (side (BackFn ?OBJ) ?OBJ))\n")
(%3ASUO-name "BackFn"))
([Bacterium] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1580)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS
[UAX-673]
[UAX-674]))
([BASE_ONTOLOGY] of %3AModule
(%3AStartingBlock 98)
(%3AinputFile "testin.kif")
(%3ASUO-name "BASE_ONTOLOGY"))
([Battle] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1451)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-620]
[UAX-621]))
([Becquerel] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 743)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Becquerel_1 of Cls(SystemeInternationalUnit))"))
([Becquerel_1] of SystemeInternationalUnit
(%3Adocumentation "SI activity measure. Symbol: Bq. It measures the amount of radioactivity contained in a given sample of matter. It is that quantity of a radioactive element in which there is one atomic disintegration per &%SecondDuration. &%Becquerel = s^(-1).")
(%3AidenticalTo "Cls(Becquerel)"))
([before] of TemporalRelation
(%3AidenticalTo
"Instance(before_2 of Cls(TransitiveRelation))"
"Instance(before_1 of Cls(IrreflexiveRelation))"
"Instance(before_4 of Cls(BinaryPredicate))"
"Slot(before_3)")
(%3Adocumentation "\"(&%before ?POINT1 ?POINT2) means that ?POINT1 precedes ?POINT2 on the universal timeline.\"")
(%3ASUO-name "before"))
([before_1] of IrreflexiveRelation
(%3Adocumentation "\"(&%before ?POINT1 ?POINT2) means that ?POINT1 precedes ?POINT2 on the universal timeline.\"")
(%3AidenticalTo
"Instance(before_2 of Cls(TransitiveRelation))"
"Instance(before_4 of Cls(BinaryPredicate))"
"Instance(before of Cls(TemporalRelation))"
"Slot(before_3)")
(%3ASUO-name "before"))
([before_2] of TransitiveRelation
(%3Adocumentation "\"(&%before ?POINT1 ?POINT2) means that ?POINT1 precedes ?POINT2 on the universal timeline.\"")
(%3AidenticalTo
"Instance(before_1 of Cls(IrreflexiveRelation))"
"Instance(before_4 of Cls(BinaryPredicate))"
"Instance(before of Cls(TemporalRelation))"
"Slot(before_3)")
(%3ASUO-name "before"))
([before_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 878)
(relatedInternalConcept "earlier")
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(before_2 of Cls(TransitiveRelation))"
"Instance(before_1 of Cls(IrreflexiveRelation))"
"Instance(before_4 of Cls(BinaryPredicate))"
"Instance(before of Cls(TemporalRelation))")
(%3AAXIOMS "\n(UAX-335)\n(=>\n (instance ?OBJ Object)\n (exists (?TIME1 ?TIME2)\n (and\n (instance ?TIME1 TimePoint)\n (instance ?TIME2 TimePoint)\n (before ?TIME1 ?TIME2)\n (forall (?TIME)\n (=>\n (and\n (beforeOrEqual ?TIME1 ?TIME)\n (beforeOrEqual ?TIME ?TIME2))\n (time ?OBJ ?TIME))))))\n\n(UAX-336)\n(=>\n (result ?PROC ?OBJ)\n (forall (?TIME)\n (=>\n (before ?TIME (BeginFn (WhenFn ?PROC)))\n (not\n (time ?OBJ ?TIME)))))\n\n(UAX-337)\n(=>\n (instance ?INTERVAL TimeInterval)\n (before (BeginFn ?INTERVAL) (EndFn ?INTERVAL)))\n")
(%3ASUO-name "before"))
([before_4] of BinaryPredicate
(%3AidenticalTo
"Instance(before_2 of Cls(TransitiveRelation))"
"Instance(before_1 of Cls(IrreflexiveRelation))"
"Instance(before of Cls(TemporalRelation))"
"Slot(before_3)")
(%3ASUO-name "before"))
([beforeOrEqual] of BinaryPredicate
(%3Adocumentation "\"(&%beforeOrEqual ?POINT1 ?POINT2) means that ?POINT1 is identical with ?POINT2 or occurs before it on the universal timeline.\"")
(%3AidenticalTo
"Slot(beforeOrEqual_3)"
"Instance(beforeOrEqual_2 of Cls(PartialOrderingRelation))"
"Instance(beforeOrEqual_1 of Cls(TemporalRelation))")
(%3ASUO-name "beforeOrEqual"))
([beforeOrEqual_1] of TemporalRelation
(%3AidenticalTo
"Slot(beforeOrEqual_3)"
"Instance(beforeOrEqual_2 of Cls(PartialOrderingRelation))"
"Instance(beforeOrEqual of Cls(BinaryPredicate))")
(%3Adocumentation "\"(&%beforeOrEqual ?POINT1 ?POINT2) means that ?POINT1 is identical with ?POINT2 or occurs before it on the universal timeline.\"")
(%3ASUO-name "beforeOrEqual"))
([beforeOrEqual_2] of PartialOrderingRelation
(%3Adocumentation "\"(&%beforeOrEqual ?POINT1 ?POINT2) means that ?POINT1 is identical with ?POINT2 or occurs before it on the universal timeline.\"")
(%3AidenticalTo
"Slot(beforeOrEqual_3)"
"Instance(beforeOrEqual_1 of Cls(TemporalRelation))"
"Instance(beforeOrEqual of Cls(BinaryPredicate))")
(%3ASUO-name "beforeOrEqual"))
([beforeOrEqual_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 883)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(beforeOrEqual_2 of Cls(PartialOrderingRelation))"
"Instance(beforeOrEqual_1 of Cls(TemporalRelation))"
"Instance(beforeOrEqual of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-338)\n(=>\n (beforeOrEqual ?POINT1 ?POINT2)\n (or\n (before ?POINT1 ?POINT2)\n (equal ?POINT1 ?POINT2)))\n")
(%3ASUO-name "beforeOrEqual"))
([BeginFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%TimeInterval to the &%TimePoint at which the interval begins.\"")
(%3AidenticalTo
"Instance(BeginFn_1 of Cls(TemporalRelation))"
"Slot(BeginFn_3)"
"Instance(BeginFn_2 of Cls(TotalValuedRelation))")
(%3ASUO-name "BeginFn"))
([BeginFn_1] of TemporalRelation
(%3AidenticalTo
"Instance(BeginFn of Cls(UnaryFunction))"
"Slot(BeginFn_3)"
"Instance(BeginFn_2 of Cls(TotalValuedRelation))")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%TimeInterval to the &%TimePoint at which the interval begins.\"")
(%3ASUO-name "BeginFn"))
([BeginFn_2] of TotalValuedRelation
(%3AidenticalTo
"Instance(BeginFn of Cls(UnaryFunction))"
"Instance(BeginFn_1 of Cls(TemporalRelation))"
"Slot(BeginFn_3)")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%TimeInterval to the &%TimePoint at which the interval begins.\"")
(%3ASUO-name "BeginFn"))
([BeginFn_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 868)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(BeginFn of Cls(UnaryFunction))"
"Instance(BeginFn_1 of Cls(TemporalRelation))"
"Instance(BeginFn_2 of Cls(TotalValuedRelation))")
(%3AAXIOMS "\n(UAX-329)\n(=>\n (origin ?PROCESS ?OBJ)\n (located (WhereFn ?PROCESS (BeginFn (WhenFn ?PROCESS))) (WhereFn ?OBJ (BeginFn (WhenFn ?OBJ)))))\n\n(UAX-330)\n(=>\n (equal (BeginFn ?INTERVAL) ?POINT)\n (forall (?OTHERPOINT)\n (=>\n (and\n (temporalPart ?OTHERPOINT ?INTERVAL)\n (not (equal ?OTHERPOINT ?POINT)))\n (before ?POINT ?OTHERPOINT))))\n")
(%3ASUO-name "BeginFn"))
([BeginNodeFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%GraphPath to the &%GraphNode that is the beginning of the &%GraphPath. Note that, unlike &%InitialNodeFn (which relates a &%GraphArc to a &%GraphNode), &%BeginNodeFn is a total function - every &%GraphPath has a beginning.\"")
(%3AidenticalTo
"Slot(BeginNodeFn_2)"
"Instance(BeginNodeFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "BeginNodeFn"))
([BeginNodeFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(BeginNodeFn of Cls(UnaryFunction))"
"Slot(BeginNodeFn_2)")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%GraphPath to the &%GraphNode that is the beginning of the &%GraphPath. Note that, unlike &%InitialNodeFn (which relates a &%GraphArc to a &%GraphNode), &%BeginNodeFn is a total function - every &%GraphPath has a beginning.\"")
(%3ASUO-name "BeginNodeFn"))
([BeginNodeFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 619)
(relatedInternalConcept "InitialNodeFn")
(%3AisInModule [GRAPH_THEORY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(BeginNodeFn of Cls(UnaryFunction))"
"Instance(BeginNodeFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "BeginNodeFn"))
([BeliefGroup] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1837)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-777]))
([believes] of PropositionalAttitude
(%3Adocumentation "\"The epistemic predicate of belief. (&%believes ?AGENT ?FORMULA) means that ?AGENT believes the proposition expressed by ?FORMULA.\"")
(%3AidenticalTo
"Slot(believes_1)"
"Instance(believes_2 of Cls(BinaryPredicate))")
(%3ASUO-name "believes"))
([believes_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 314)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(believes of Cls(PropositionalAttitude))"
"Instance(believes_2 of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-110)\n(=>\n (believes ?AGENT ?FORMULA)\n (exists (?TIME)\n (holdsDuring ?TIME (considers ?AGENT ?FORMULA))))\n")
(%3ASUO-name "believes"))
([believes_2] of BinaryPredicate
(%3AidenticalTo
"Slot(believes_1)"
"Instance(believes of Cls(PropositionalAttitude))")
(%3ASUO-name "believes"))
([Below] of PositionalAttribute
(contraryAttribute_2 [Above])
(%3Adocumentation "\"This &%PositionalAttribute is derived from the up/down schema and may or may not involve contact. Note that this means directly below, i.e., if one object is &%Below another object, then the projections of the two objects overlap.\"")
(%3AAXIOMS "\n(UAX-803)\n(<=>\n (orientation ?OBJ1 ?OBJ2 Below)\n (or\n (orientation ?OBJ2 ?OBJ1 On)\n (orientation ?OBJ2 ?OBJ1 Above)))\n")
(%3ASUO-name "Below"))
([Betting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1283)
(%3AisInModule [PROCESSES]))
([between] of SpatialRelation
(%3AidenticalTo
"Slot(between_2)"
"Instance(between_1 of Cls(TernaryPredicate))")
(%3Adocumentation "\"(between ?OBJ1 ?OBJ2 ?OBJ3) means that ?OBJ2 is spatially located between ?OBJ1 and ?OBJ3. Note that this implies that ?OBJ2 is directly between ?OBJ1 and ?OBJ3, i.e. the projections of ?OBJ1 and ?OBJ3 overlap with ?OBJ2.\"")
(%3ASUO-name "between"))
([between_1] of TernaryPredicate
(%3AidenticalTo
"Slot(between_2)"
"Instance(between of Cls(SpatialRelation))")
(%3Adocumentation "\"(between ?OBJ1 ?OBJ2 ?OBJ3) means that ?OBJ2 is spatially located between ?OBJ1 and ?OBJ3. Note that this implies that ?OBJ2 is directly between ?OBJ1 and ?OBJ3, i.e. the projections of ?OBJ1 and ?OBJ3 overlap with ?OBJ2.\"")
(%3ASUO-name "between"))
([between_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 437)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain2Class Object)
(%3AidenticalTo
"Instance(between_1 of Cls(TernaryPredicate))"
"Instance(between of Cls(SpatialRelation))")
(%3ASUO-name "between"))
([Beverage] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1649)
(disjoint [Meat])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS
[UAX-691]
[UAX-692]))
([BinaryFunction] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 363)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-139])
(%3AidenticalTo "Instance(BinaryFunction_1 of Cls(InheritableRelation))"))
([BinaryFunction_1] of InheritableRelation
(%3Adocumentation "\"The &%Class of &%Functions that require two arguments.\"")
(%3AidenticalTo "Cls(BinaryFunction)"))
([BinaryNumber] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 225)
(%3AisInModule [BASE_ONTOLOGY]))
([BinaryPredicate] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 375)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-144])
(%3AidenticalTo "Instance(BinaryPredicate_1 of Cls(InheritableRelation))"))
([BinaryPredicate_1] of InheritableRelation
(%3Adocumentation "\"A &%Predicate relating two items - its valence is two.\"")
(%3AidenticalTo "Cls(BinaryPredicate)"))
([BinaryRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 252)
(disjoint
[UnaryRelation]
[TernaryRelation]
[QuaternaryRelation]
[QuintaryRelation]
[VariableArityRelation])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-087])
(%3AidenticalTo "Instance(BinaryRelation_1 of Cls(InheritableRelation))"))
([BinaryRelation_1] of InheritableRelation
(%3Adocumentation "\"&%BinaryRelations are relations that are true only of pairs of things. &%BinaryRelations are represented as slots in frame systems.\"")
(%3AidenticalTo "Cls(BinaryRelation)"))
([BiologicalAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2061)
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS [UAX-858]))
([BiologicallyActiveSubstance] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1620)
(%3AisInModule [OBJECTS]))
([BiologicalProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1111)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-462]
[UAX-463]))
([Bird] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1599)
(disjoint [Mammal])
(%3AisInModule [OBJECTS]))
([Birth] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1117)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-464]))
([Bit] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 821)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Bit_1 of Cls(UnitOfMeasure))"))
([Bit_1] of UnitOfMeasure
(%3AidenticalTo "Cls(Bit)")
(%3Adocumentation "One &%Bit of information. A one or a zero."))
([Black] of PrimaryColor
(%3Adocumentation "\"The &%Attribute of being black in color.\"")
(%3ASUO-name "Black"))
([Blood] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1643)
(%3AisInModule [OBJECTS]))
([Blue] of PrimaryColor
(%3Adocumentation "\"The &%Attribute of being blue in color.\"")
(%3ASUO-name "Blue"))
([BodyCovering] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1672)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-702]))
([BodyJunction] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1674)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS
[UAX-703]
[UAX-704]))
([BodyMotion] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1199)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-503]))
([BodyPart] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1657)
(disjoint [AbnormalAnatomicalStructure])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS
[UAX-696]
[UAX-697]))
([BodyPosition] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2063)
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS [UAX-859]))
([BodySubstance] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1636)
(%3AisInModule [OBJECTS]))
([BodyVessel] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1677)
(%3AisInModule [OBJECTS]))
([Boiling] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1494)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-640]
[UAX-641]))
([Bone] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1685)
(disjoint
[Muscle]
[FatTissue])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-708]))
([Book] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1730)
(disjoint [Article])
(%3AisInModule [OBJECTS]))
([Borrowing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1274)
(%3AisInModule [PROCESSES]))
([bottom] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1039)
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain1Type Instance)
(%3AAXIOMS "\n(UAX-429)\n(=>\n (and\n (bottom ?BOTTOM ?OBJECT)\n (part ?PART ?OBJECT)\n (not (connected ?PART ?BOTTOM)))\n (orientation ?PART ?BOTTOM Above))\n")
(%3ASUO-name "bottom"))
([BreakabilityAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2057)
(%3AisInModule [QUALITIES]))
([Breathing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1122)
(%3AisInModule [PROCESSES]))
([BritishThermalUnit] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 804)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-303])
(%3AidenticalTo "Instance(BritishThermalUnit_1 of Cls(UnitOfMeasure))"))
([BritishThermalUnit_1] of UnitOfMeasure
(%3AidenticalTo "Cls(BritishThermalUnit)")
(%3Adocumentation "An energy measure."))
([brother] of IrreflexiveRelation
(%3Adocumentation "\"The general relationship of being a brother. (&%brother ?MAN ?PERSON) means that ?MAN is the brother of ?PERSON.\"")
(%3AidenticalTo
"Instance(brother_1 of Cls(TransitiveRelation))"
"Slot(brother_2)")
(%3ASUO-name "brother"))
([brother_1] of TransitiveRelation
(%3Adocumentation "\"The general relationship of being a brother. (&%brother ?MAN ?PERSON) means that ?MAN is the brother of ?PERSON.\"")
(%3AidenticalTo
"Instance(brother of Cls(IrreflexiveRelation))"
"Slot(brother_2)")
(%3ASUO-name "brother"))
([brother_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1564)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(brother of Cls(IrreflexiveRelation))"
"Instance(brother_1 of Cls(TransitiveRelation))")
(%3ASUO-name "brother"))
([Building] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1759)
(disjoint [Room])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-742]))
([Buying] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1284)
(relatedInternalConcept "Selling")
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-538]))
([Byte] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 822)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-309])
(%3AidenticalTo "Instance(Byte_1 of Cls(UnitOfMeasure))"))
([Byte_1] of UnitOfMeasure
(%3AidenticalTo "Cls(Byte)")
(%3Adocumentation "One &%Byte of information. A &%Byte is eight &%Bits."))
([Calculating] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1307)
(%3AisInModule [PROCESSES]))
([Calorie] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 802)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-302])
(%3AidenticalTo "Instance(Calorie_1 of Cls(UnitOfMeasure))"))
([Calorie_1] of UnitOfMeasure
(%3AidenticalTo "Cls(Calorie)")
(%3Adocumentation "A &%Calorie is an energy measure."))
([Candela] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 698)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Candela_1 of Cls(SystemeInternationalUnit))"))
([Candela_1] of SystemeInternationalUnit
(%3Adocumentation "SI luminosity intensity measure. Symbol: cd. It is one of the base units in SI, and it is currently defined as follows: the &%Candela is the luminous intensity, in a given direction, of a source that emits monochromatic radiation of frequency 540*10^12 &%Hertz and that has a radiant intensity in that direction of 1/683 &%Watt per &%Steradian.")
(%3AidenticalTo "Cls(Candela)"))
([Canine] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1608)
(disjoint [Feline])
(%3AisInModule [OBJECTS]))
([capability] of TernaryPredicate
(%3AidenticalTo "Slot(capability_1)")
(%3Adocumentation "\"(&%capability ?PROCESS ?ROLE ?OBJ) means that ?OBJ has the ability to play the role of ?ROLE in &%Processes of type ?PROCESS.\"")
(%3ASUO-name "capability"))
([capability_1] of %3ATernarySlot
(%3ALOAD-SEQUENCE 414)
(%3ADomain2Type Instance)
(%3ADomain1Type Class)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain2Class CaseRole)
(%3AidenticalTo "Instance(capability of Cls(TernaryPredicate))")
(%3AAXIOMS "\n(UAX-163)\n(=>\n (and\n (instance ?ROLE CaseRole)\n (holds ?ROLE ?ARG1 ?ARG2)\n (instance ?ARG1 ?PROC)\n (subclass ?PROC Process))\n (capability ?PROC ?ROLE ?ARG2))\n")
(%3ASUO-name "capability"))
([Carbohydrate] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1624)
(disjoint
[Protein]
[Vitamin])
(%3AisInModule [OBJECTS]))
([CardinalityFn] of UnaryFunction
(%3Adocumentation "\"(CardinalityFn ?CLASS) returns the number of instances in the &%SetOrClass or &%Collection ?CLASS.\"")
(%3AidenticalTo
"Instance(CardinalityFn_2 of Cls(AsymmetricRelation))"
"Instance(CardinalityFn_1 of Cls(TotalValuedRelation))"
"Slot(CardinalityFn_3)")
(%3ASUO-name "CardinalityFn"))
([CardinalityFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(CardinalityFn of Cls(UnaryFunction))"
"Instance(CardinalityFn_2 of Cls(AsymmetricRelation))"
"Slot(CardinalityFn_3)")
(%3Adocumentation "\"(CardinalityFn ?CLASS) returns the number of instances in the &%SetOrClass or &%Collection ?CLASS.\"")
(%3ASUO-name "CardinalityFn"))
([CardinalityFn_2] of AsymmetricRelation
(%3Adocumentation "\"(CardinalityFn ?CLASS) returns the number of instances in the &%SetOrClass or &%Collection ?CLASS.\"")
(%3AidenticalTo
"Instance(CardinalityFn of Cls(UnaryFunction))"
"Instance(CardinalityFn_1 of Cls(TotalValuedRelation))"
"Slot(CardinalityFn_3)")
(%3ASUO-name "CardinalityFn"))
([CardinalityFn_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 570)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(CardinalityFn of Cls(UnaryFunction))"
"Instance(CardinalityFn_2 of Cls(AsymmetricRelation))"
"Instance(CardinalityFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "CardinalityFn"))
([Carnivore] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1606)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-679]))
([Carrying] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1220)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-509]))
([CaseRole] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 274)
(%3AisInModule [BASE_ONTOLOGY])
(%3AidenticalTo "Instance(CaseRole_1 of Cls(InheritableRelation))"))
([CaseRole_1] of InheritableRelation
(%3Adocumentation "\"The &%Class of &%Predicates relating the spatially distinguished parts of a &%Process. &%CaseRoles include, for example, the &%agent, &%patient or &%destination of an action, the flammable substance in a burning process, or the water that falls in rain.\"")
(%3AidenticalTo "Cls(CaseRole)"))
([causes] of BinaryPredicate
(%3Adocumentation "\"The causation relation between instances of &%Process. (&%causes ?PROCESS1 ?PROCESS2) means that the instance of &%Process ?PROCESS1 brings about the instance of &%Process ?PROCESS2, e.g. (&%causes &%Killing &%Death).\"")
(%3AidenticalTo
"Slot(causes_2)"
"Instance(causes_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "causes"))
([causes_1] of AsymmetricRelation
(%3Adocumentation "\"The causation relation between instances of &%Process. (&%causes ?PROCESS1 ?PROCESS2) means that the instance of &%Process ?PROCESS1 brings about the instance of &%Process ?PROCESS2, e.g. (&%causes &%Killing &%Death).\"")
(%3AidenticalTo
"Slot(causes_2)"
"Instance(causes of Cls(BinaryPredicate))")
(%3ASUO-name "causes"))
([causes_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 404)
(relatedInternalConcept "causesSubclass")
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(causes_1 of Cls(AsymmetricRelation))"
"Instance(causes of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-158)\n(=>\n (instance ?PROC1 Process)\n (exists (?PROC2)\n (causes ?PROC2 ?PROC1)))\n")
(%3ASUO-name "causes"))
([causesSubclass] of BinaryPredicate
(%3Adocumentation "\"The causation relation between subclasses of &%Process. (&%causesSubclass ?PROCESS1 ?PROCESS2) means that the subclass of &%Process ?PROCESS1 brings about the subclass of &%Process ?PROCESS2, e.g. (&%causes &%Killing &%Death).\"")
(%3AidenticalTo
"Slot(causesSubclass_2)"
"Instance(causesSubclass_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "causesSubclass"))
([causesSubclass_1] of AsymmetricRelation
(%3Adocumentation "\"The causation relation between subclasses of &%Process. (&%causesSubclass ?PROCESS1 ?PROCESS2) means that the subclass of &%Process ?PROCESS1 brings about the subclass of &%Process ?PROCESS2, e.g. (&%causes &%Killing &%Death).\"")
(%3AidenticalTo
"Instance(causesSubclass of Cls(BinaryPredicate))"
"Slot(causesSubclass_2)")
(%3ASUO-name "causesSubclass"))
([causesSubclass_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 406)
(relatedInternalConcept "causes")
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Class)
(%3AidenticalTo
"Instance(causesSubclass of Cls(BinaryPredicate))"
"Instance(causesSubclass_1 of Cls(AsymmetricRelation))")
(%3AAXIOMS "\n(UAX-159)\n(=>\n (causesSubclass ?PROC1 ?PROC2)\n (forall (?INST2)\n (=>\n (instance ?INST2 ?PROC2)\n (exists (?INST1)\n (and\n (instance ?INST1 ?PROC1)\n (causes ?INST1 ?INST2))))))\n")
(%3ASUO-name "causesSubclass"))
([CeilingFn] of UnaryFunction
(%3Adocumentation "\"(&%CeilingFn ?NUMBER) returns the smallest &%Integer greater than or equal to the &%RealNumber ?NUMBER.\"")
(%3AidenticalTo
"Slot(CeilingFn_2)"
"Instance(CeilingFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "CeilingFn"))
([CeilingFn_1] of TotalValuedRelation
(%3AidenticalTo
"Slot(CeilingFn_2)"
"Instance(CeilingFn of Cls(UnaryFunction))")
(%3Adocumentation "\"(&%CeilingFn ?NUMBER) returns the smallest &%Integer greater than or equal to the &%RealNumber ?NUMBER.\"")
(%3ASUO-name "CeilingFn"))
([CeilingFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 493)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(CeilingFn_1 of Cls(TotalValuedRelation))"
"Instance(CeilingFn of Cls(UnaryFunction))")
(%3AAXIOMS "\n(UAX-196)\n(=>\n (equal (CeilingFn ?NUMBER) ?INT)\n (not\n (exists (?OTHERINT)\n (and\n (instance ?OTHERINT Integer)\n (greaterThanOrEqualTo ?OTHERINT ?NUMBER)\n (lessThan ?OTHERINT ?INT)))))\n")
(%3ASUO-name "CeilingFn"))
([Cell] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1678)
(%3AisInModule [OBJECTS]))
([CelsiusDegree] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 735)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS
[UAX-279]
[UAX-280])
(%3AidenticalTo "Instance(CelsiusDegree_1 of Cls(SystemeInternationalUnit))"))
([CelsiusDegree_1] of SystemeInternationalUnit
(%3Adocumentation "A &%TemperatureMeasure. The freezing point and the boiling point of water are, respectively, 0 &%CelsiusDegrees and 100 &%CelsiusDegrees.")
(%3AidenticalTo "Cls(CelsiusDegree)"))
([Centimeter] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 700)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-278])
(%3AidenticalTo "Instance(Centimeter_1 of Cls(UnitOfMeasure))"))
([Centimeter_1] of UnitOfMeasure
(%3AidenticalTo "Cls(Centimeter)")
(%3Adocumentation "Submultiple of &%Meter. Symbol: cm. It is the 100th part of a &%Meter"))
([CentralTimeZone] of TimeZone
(%3Adocumentation "\"A &%TimeZone that covers much of the midwestern United States.\"")
(%3AAXIOMS "\n(UAX-813)\n(=>\n (equal (RelativeTimeFn ?TIME1 CentralTimeZone) ?TIME2)\n (equal ?TIME2 (AdditionFn ?TIME1 6)))\n")
(%3ASUO-name "CentralTimeZone"))
([Certificate] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1738)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-733]))
([ChangeOfPossession] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1256)
(relatedInternalConcept "possesses")
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-524]
[UAX-525]))
([Character] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 155)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-065]))
([ChemicalDecomposition] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1351)
(disjoint [ChemicalSynthesis])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-572]))
([ChemicalProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1346)
(partition
[ChemicalSynthesis]
[ChemicalDecomposition])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-569]))
([ChemicalSynthesis] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1348)
(disjoint [ChemicalDecomposition])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-570]
[UAX-571]))
([Circle] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2027)
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS [UAX-847]))
([citizen] of BinaryPredicate
(%3Adocumentation "\"(&%citizen ?PERSON ?NATION) means that the &%Human ?PERSON is a citizen of &%Nation ?NATION.\"")
(%3AidenticalTo
"Slot(citizen_2)"
"Instance(citizen_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "citizen"))
([citizen_1] of AsymmetricRelation
(%3Adocumentation "\"(&%citizen ?PERSON ?NATION) means that the &%Human ?PERSON is a citizen of &%Nation ?NATION.\"")
(%3AidenticalTo
"Instance(citizen of Cls(BinaryPredicate))"
"Slot(citizen_2)")
(%3ASUO-name "citizen"))
([citizen_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1857)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(citizen of Cls(BinaryPredicate))"
"Instance(citizen_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "citizen"))
([City] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1536)
(%3AisInModule [OBJECTS]))
([Class] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 241)
(disjoint [Set])
(%3AisInModule [BASE_ONTOLOGY]))
([Classifying] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1295)
(%3AisInModule [PROCESSES]))
([closedOn] of BinaryPredicate
(%3Adocumentation "\"A &%BinaryFunction is closed on a &%SetOrClass if it is defined for all instances of the &%SetOrClass and its value is always an instance of the &%SetOrClass.\"")
(%3AidenticalTo
"Slot(closedOn_2)"
"Instance(closedOn_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "closedOn"))
([closedOn_1] of AsymmetricRelation
(%3Adocumentation "\"A &%BinaryFunction is closed on a &%SetOrClass if it is defined for all instances of the &%SetOrClass and its value is always an instance of the &%SetOrClass.\"")
(%3AidenticalTo
"Instance(closedOn of Cls(BinaryPredicate))"
"Slot(closedOn_2)")
(%3ASUO-name "closedOn"))
([closedOn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 387)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(closedOn of Cls(BinaryPredicate))"
"Instance(closedOn_1 of Cls(AsymmetricRelation))")
(%3AAXIOMS "\n(UAX-149)\n(=>\n (and\n (closedOn ?FUNCTION ?CLASS)\n (instance ?FUNCTION UnaryFunction))\n (forall (?INST)\n (=>\n (instance ?INST ?CLASS)\n (instance (AssignmentFn ?FUNCTION ?INST) ?CLASS))))\n\n(UAX-150)\n(=>\n (and\n (closedOn ?FUNCTION ?CLASS)\n (instance ?FUNCTION BinaryFunction))\n (forall (?INST1 ?INST2)\n (=>\n (and\n (instance ?INST1 ?CLASS)\n (instance ?INST2 ?CLASS))\n (instance (AssignmentFn ?FUNCTION ?INST1 ?INST2) ?CLASS))))\n")
(%3ASUO-name "closedOn"))
([ClosedTwoDimensionalFigure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2016)
(disjoint [OpenTwoDimensionalFigure])
(%3AisInModule [QUALITIES]))
([Clothing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1776)
(disjoint [StationaryArtifact])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-748]))
([Cloud] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1629)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-681]))
([CognitiveAgent] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 180)
(%3AisInModule [BASE_ONTOLOGY]))
([ColdBloodedVertebrate] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1596)
(disjoint [WarmBloodedVertebrate])
(disjointDecomposition
[Amphibian]
[Fish]
[Reptile])
(%3AisInModule [OBJECTS]))
([Collection] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 148)
(disjoint [SelfConnectedObject])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-063]))
([ColorAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1991)
(%3AisInModule [QUALITIES]))
([Coloring] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1362)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-577]))
([COM%24contraryAttribute%24059%24004] of %3AEmbeddedComment
(%3ALOAD-SEQUENCE 59)
(%3AblockLineNumber 4)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3AcommentLines
"(domain contraryAttribute 2 Attribute)"
";; domain 2 added 11/10/03 for Protege alignment")
(%3ASUO-name "COM$contraryAttribute$059$004"))
([COM%24inverse%24014%24004] of %3AEmbeddedComment
(%3ALOAD-SEQUENCE 14)
(%3AblockLineNumber 4)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3AcommentLines
"(instance inverse SymmetricRelation)"
";; inverse implies an inverse relation, which should be made explicit")
(%3ASUO-name "COM$inverse$014$004"))
([COM%24Physical%24106%24002] of %3AEmbeddedComment
(%3ALOAD-SEQUENCE 106)
(%3AblockLineNumber 2)
(%3AisInModule [BASE_ONTOLOGY])
(%3AcommentLines
"(partition Physical Object Process)"
";; partition implies the disjointness of the partition classes")
(%3ASUO-name "COM$Physical$106$002"))
([Combining] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1343)
(disjoint [Separating])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-568]))
([Combustion] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1353)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-573]))
([CommercialAgent] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1811)
(%3AisInModule [OBJECTS]))
([CommercialService] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1281)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-537]))
([Committing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1431)
(disjoint
[Stating]
[Supposing]
[Directing]
[ExpressingInLanguage]
[Declaring])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-610]))
([Communication] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1405)
(relatedInternalConcept "ContentDevelopment")
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-599]))
([CommutativeFunction] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 367)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-141]))
([Comparing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1306)
(%3AisInModule [PROCESSES]))
([ComplementFn] of UnaryFunction
(%3Adocumentation "\"The complement of a given &%SetOrClass C is the &%SetOrClass of all things that are not instances of C. In other words, an object is an instance of the complement of a &%SetOrClass C just in case it is not an instance of C.\"")
(%3AidenticalTo
"Instance(ComplementFn_1 of Cls(TotalValuedRelation))"
"Slot(ComplementFn_2)")
(%3ASUO-name "ComplementFn"))
([ComplementFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(ComplementFn of Cls(UnaryFunction))"
"Slot(ComplementFn_2)")
(%3Adocumentation "\"The complement of a given &%SetOrClass C is the &%SetOrClass of all things that are not instances of C. In other words, an object is an instance of the complement of a &%SetOrClass C just in case it is not an instance of C.\"")
(%3ASUO-name "ComplementFn"))
([ComplementFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 567)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(ComplementFn of Cls(UnaryFunction))"
"Instance(ComplementFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "ComplementFn"))
([completelyFills] of AsymmetricRelation
(%3Adocumentation "\"(&%completelyFills ?OBJ ?HOLE) means that some &%part of the &%Object ?OBJ fills the &%Hole ?HOLE. Note that if (&%completelyFills ?OBJ1 ?HOLE) and (&%part ?OBJ1 ?OBJ2), then (&%completelyFills ?OBJ2 ?HOLE).\"")
(%3AidenticalTo "Slot(completelyFills_1)")
(%3ASUO-name "completelyFills"))
([completelyFills_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1086)
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(completelyFills of Cls(AsymmetricRelation))")
(%3AAXIOMS "\n(UAX-452)\n(=>\n (completelyFills ?OBJ1 ?HOLE)\n (exists (?OBJ2)\n (and\n (part ?OBJ2 ?OBJ1)\n (fills ?OBJ2 ?HOLE))))\n")
(%3ASUO-name "completelyFills"))
([ComplexNumber] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 226)
(disjoint
[RealNumber]
[ImaginaryNumber])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-081]))
([component] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 119)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(component_1 of Cls(SpatialRelation))")
(%3ASUO-name "component"))
([component_1] of SpatialRelation
(%3AidenticalTo "Slot(component)")
(%3ASUO-name "component"))
([CompoundSubstance] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 139)
(disjoint [ElementalSubstance])
(%3AisInModule [BASE_ONTOLOGY]))
([ComputerLanguage] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 165)
(disjoint
[AnimalLanguage]
[HumanLanguage])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-067]))
([ComputerProgram] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1864)
(%3AisInModule [QUALITIES]))
([conclusion] of BinaryPredicate
(%3Adocumentation "\"(&%conclusion ?ARGUMENT ?PROPOSITION) means that the &%Proposition ?PROPOSITION is the conclusion explicitly drawn from the &%Argument ?ARGUMENT. Note that it may or may not be the case that ?ARGUMENT &%entails ?PROPOSITION.\"")
(%3AidenticalTo
"Instance(conclusion_1 of Cls(SingleValuedRelation))"
"Slot(conclusion_3)"
"Instance(conclusion_2 of Cls(TotalValuedRelation))")
(%3ASUO-name "conclusion"))
([conclusion_1] of SingleValuedRelation
(%3AidenticalTo
"Instance(conclusion of Cls(BinaryPredicate))"
"Slot(conclusion_3)"
"Instance(conclusion_2 of Cls(TotalValuedRelation))")
(%3Adocumentation "\"(&%conclusion ?ARGUMENT ?PROPOSITION) means that the &%Proposition ?PROPOSITION is the conclusion explicitly drawn from the &%Argument ?ARGUMENT. Note that it may or may not be the case that ?ARGUMENT &%entails ?PROPOSITION.\"")
(%3ASUO-name "conclusion"))
([conclusion_2] of TotalValuedRelation
(%3AidenticalTo
"Instance(conclusion_1 of Cls(SingleValuedRelation))"
"Instance(conclusion of Cls(BinaryPredicate))"
"Slot(conclusion_3)")
(%3Adocumentation "\"(&%conclusion ?ARGUMENT ?PROPOSITION) means that the &%Proposition ?PROPOSITION is the conclusion explicitly drawn from the &%Argument ?ARGUMENT. Note that it may or may not be the case that ?ARGUMENT &%entails ?PROPOSITION.\"")
(%3ASUO-name "conclusion"))
([conclusion_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1879)
(%3AisInModule [QUALITIES])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(conclusion_1 of Cls(SingleValuedRelation))"
"Instance(conclusion of Cls(BinaryPredicate))"
"Instance(conclusion_2 of Cls(TotalValuedRelation))")
(%3ASUO-name "conclusion"))
([Condensing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1497)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-642]
[UAX-643]))
([conditionalProbability] of ProbabilityRelation
(%3AidenticalTo
"Slot(conditionalProbability_2)"
"Instance(conditionalProbability_1 of Cls(TernaryPredicate))")
(%3Adocumentation "\"One of the basic &%ProbabilityRelations. &%conditionalProbability is used to state the numeric value of a conditional probability. (&%conditionalProbability ?FORMULA1 ?FORMULA2 ?NUMBER) means that the probability of ?FORMULA2 being true given that ?FORMULA1 is true is ?NUMBER.\"")
(%3ASUO-name "conditionalProbability"))
([conditionalProbability_1] of TernaryPredicate
(%3AidenticalTo
"Instance(conditionalProbability of Cls(ProbabilityRelation))"
"Slot(conditionalProbability_2)")
(%3Adocumentation "\"One of the basic &%ProbabilityRelations. &%conditionalProbability is used to state the numeric value of a conditional probability. (&%conditionalProbability ?FORMULA1 ?FORMULA2 ?NUMBER) means that the probability of ?FORMULA2 being true given that ?FORMULA1 is true is ?NUMBER.\"")
(%3ASUO-name "conditionalProbability"))
([conditionalProbability_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 287)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain2Class Formula)
(%3AidenticalTo
"Instance(conditionalProbability of Cls(ProbabilityRelation))"
"Instance(conditionalProbability_1 of Cls(TernaryPredicate))")
(%3ASUO-name "conditionalProbability"))
([confersObligation] of TernaryPredicate
(%3AidenticalTo "Slot(confersObligation_1)")
(%3Adocumentation "\"Expresses the relationship between a a &%Formula, an &%Entity, and a &%CognitiveAgent when the &%Entity obligates the &%CognitiveAgent to bring it about that the &%Formula is true.\"")
(%3ASUO-name "confersObligation"))
([confersObligation_1] of %3ATernarySlot
(%3ALOAD-SEQUENCE 427)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(relatedInternalConcept "confersRight")
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain2Class Entity)
(%3AidenticalTo "Instance(confersObligation of Cls(TernaryPredicate))")
(%3AAXIOMS "\n(UAX-168)\n(=>\n (confersObligation ?FORMULA ?AGENT1 ?AGENT2)\n (holdsObligation ?FORMULA ?AGENT2))\n")
(%3ASUO-name "confersObligation"))
([confersRight] of TernaryPredicate
(%3AidenticalTo "Slot(confersRight_1)")
(%3Adocumentation "\"Expresses the relationship between a &%Formula, an &%Entity, and a &%CognitiveAgent when the &%Entity authorizes the &%CognitiveAgent to bring it about that the &%Formula is true.\"")
(%3ASUO-name "confersRight"))
([confersRight_1] of %3ATernarySlot
(%3ALOAD-SEQUENCE 424)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(relatedInternalConcept "confersObligation")
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain2Class Entity)
(%3AidenticalTo "Instance(confersRight of Cls(TernaryPredicate))")
(%3AAXIOMS "\n(UAX-167)\n(=>\n (confersRight ?FORMULA ?AGENT1 ?AGENT2)\n (holdsRight ?FORMULA ?AGENT2))\n")
(%3ASUO-name "confersRight"))
([Confining] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1319)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-556]
[UAX-557]))
([connected] of BinaryPredicate
(%3Adocumentation "\"(connected ?OBJ1 ?OBJ2) means that ?OBJ1 &%meetsSpatially ?OBJ2 or that ?OBJ1 &%overlapsSpatially ?OBJ2.\"")
(%3AidenticalTo
"Slot(connected_4)"
"Instance(connected_3 of Cls(SymmetricRelation))"
"Instance(connected_2 of Cls(ReflexiveRelation))"
"Instance(connected_1 of Cls(SpatialRelation))")
(%3ASUO-name "connected"))
([connected_1] of SpatialRelation
(%3AidenticalTo
"Instance(connected of Cls(BinaryPredicate))"
"Slot(connected_4)"
"Instance(connected_3 of Cls(SymmetricRelation))"
"Instance(connected_2 of Cls(ReflexiveRelation))")
(%3Adocumentation "\"(connected ?OBJ1 ?OBJ2) means that ?OBJ1 &%meetsSpatially ?OBJ2 or that ?OBJ1 &%overlapsSpatially ?OBJ2.\"")
(%3ASUO-name "connected"))
([connected_2] of ReflexiveRelation
(%3Adocumentation "\"(connected ?OBJ1 ?OBJ2) means that ?OBJ1 &%meetsSpatially ?OBJ2 or that ?OBJ1 &%overlapsSpatially ?OBJ2.\"")
(%3AidenticalTo
"Instance(connected of Cls(BinaryPredicate))"
"Slot(connected_4)"
"Instance(connected_3 of Cls(SymmetricRelation))"
"Instance(connected_1 of Cls(SpatialRelation))")
(%3ASUO-name "connected"))
([connected_3] of SymmetricRelation
(%3Adocumentation "\"(connected ?OBJ1 ?OBJ2) means that ?OBJ1 &%meetsSpatially ?OBJ2 or that ?OBJ1 &%overlapsSpatially ?OBJ2.\"")
(%3AidenticalTo
"Instance(connected of Cls(BinaryPredicate))"
"Slot(connected_4)"
"Instance(connected_2 of Cls(ReflexiveRelation))"
"Instance(connected_1 of Cls(SpatialRelation))")
(%3ASUO-name "connected"))
([connected_4] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1021)
(disjointRelation [crosses_2])
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(connected of Cls(BinaryPredicate))"
"Instance(connected_3 of Cls(SymmetricRelation))"
"Instance(connected_2 of Cls(ReflexiveRelation))"
"Instance(connected_1 of Cls(SpatialRelation))")
(%3AAXIOMS "\n(UAX-419)\n(=>\n (connected ?OBJ1 ?OBJ2)\n (or\n (meetsSpatially ?OBJ1 ?OBJ2)\n (overlapsSpatially ?OBJ1 ?OBJ2)))\n\n(UAX-420)\n(<=>\n (instance ?OBJ SelfConnectedObject)\n (forall (?PART1 ?PART2)\n (=>\n (equal ?OBJ (MereologicalSumFn ?PART1 ?PART2))\n (connected ?PART1 ?PART2))))\n")
(%3ASUO-name "connected"))
([connectedEngineeringComponents] of SymmetricRelation
(%3Adocumentation "\"This is the most general connection relation between &%EngineeringComponents. If (&%connectedEngineeringComponents ?COMP1 ?COMP2), then neither ?COMP1 nor ?COMP2 can be an &%engineeringSubcomponent of the other. The relation &%connectedEngineeringComponents is a &%SymmetricRelation; there is no information in the direction of connection between two components. It is also an &%IrreflexiveRelation; no &%EngineeringComponent bears this relation to itself. Note that this relation does not associate a name or type with the connection.\"")
(%3AidenticalTo
"Instance(connectedEngineeringComponents_4 of Cls(SpatialRelation))"
"Instance(connectedEngineeringComponents_1 of Cls(IrreflexiveRelation))"
"Instance(connectedEngineeringComponents_3 of Cls(BinaryPredicate))"
"Slot(connectedEngineeringComponents_2)")
(%3ASUO-name "connectedEngineeringComponents"))
([connectedEngineeringComponents_1] of IrreflexiveRelation
(%3Adocumentation "\"This is the most general connection relation between &%EngineeringComponents. If (&%connectedEngineeringComponents ?COMP1 ?COMP2), then neither ?COMP1 nor ?COMP2 can be an &%engineeringSubcomponent of the other. The relation &%connectedEngineeringComponents is a &%SymmetricRelation; there is no information in the direction of connection between two components. It is also an &%IrreflexiveRelation; no &%EngineeringComponent bears this relation to itself. Note that this relation does not associate a name or type with the connection.\"")
(%3AidenticalTo
"Instance(connectedEngineeringComponents of Cls(SymmetricRelation))"
"Instance(connectedEngineeringComponents_4 of Cls(SpatialRelation))"
"Instance(connectedEngineeringComponents_3 of Cls(BinaryPredicate))"
"Slot(connectedEngineeringComponents_2)")
(%3ASUO-name "connectedEngineeringComponents"))
([connectedEngineeringComponents_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1803)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(connectedEngineeringComponents of Cls(SymmetricRelation))"
"Instance(connectedEngineeringComponents_4 of Cls(SpatialRelation))"
"Instance(connectedEngineeringComponents_1 of Cls(IrreflexiveRelation))"
"Instance(connectedEngineeringComponents_3 of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-763)\n(=>\n (connectedEngineeringComponents ?COMP1 ?COMP2)\n (and\n (not\n (engineeringSubcomponent ?COMP1 ?COMP2))\n (not\n (engineeringSubcomponent ?COMP2 ?COMP1))))\n\n(UAX-764)\n(=>\n (connectedEngineeringComponents ?COMP1 ?COMP2)\n (not\n (or\n (instance ?COMP1 EngineeringConnection)\n (instance ?COMP2 EngineeringConnection))))\n\n(UAX-765)\n(<=>\n (connectedEngineeringComponents ?COMP1 ?COMP2)\n (exists (?CONNECTION)\n (connectsEngineeringComponents ?CONNECTION ?COMP1 ?COMP2)))\n")
(%3ASUO-name "connectedEngineeringComponents"))
([connectedEngineeringComponents_3] of BinaryPredicate
(%3AidenticalTo
"Instance(connectedEngineeringComponents of Cls(SymmetricRelation))"
"Instance(connectedEngineeringComponents_4 of Cls(SpatialRelation))"
"Instance(connectedEngineeringComponents_1 of Cls(IrreflexiveRelation))"
"Slot(connectedEngineeringComponents_2)")
(%3ASUO-name "connectedEngineeringComponents"))
([connectedEngineeringComponents_4] of SpatialRelation
(%3AidenticalTo
"Instance(connectedEngineeringComponents of Cls(SymmetricRelation))"
"Instance(connectedEngineeringComponents_1 of Cls(IrreflexiveRelation))"
"Instance(connectedEngineeringComponents_3 of Cls(BinaryPredicate))"
"Slot(connectedEngineeringComponents_2)")
(%3ASUO-name "connectedEngineeringComponents"))
([connects] of SpatialRelation
(%3AidenticalTo
"Instance(connects_1 of Cls(TernaryPredicate))"
"Slot(connects_2)")
(%3Adocumentation "\"The relationship between three things, when one of the three things connects the other two. More formally, (&%connects ?OBJ1 ?OBJ2 ?OBJ3) means that (&%connected ?OBJ1 ?OBJ2) and (&%connected ?OBJ1 ?OBJ3) and not (&%connected ?OBJ2 ?OBJ3).\"")
(%3ASUO-name "connects"))
([connects_1] of TernaryPredicate
(%3AidenticalTo
"Instance(connects of Cls(SpatialRelation))"
"Slot(connects_2)")
(%3Adocumentation "\"The relationship between three things, when one of the three things connects the other two. More formally, (&%connects ?OBJ1 ?OBJ2 ?OBJ3) means that (&%connected ?OBJ1 ?OBJ2) and (&%connected ?OBJ1 ?OBJ3) and not (&%connected ?OBJ2 ?OBJ3).\"")
(%3ASUO-name "connects"))
([connects_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 1024)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain2Class SelfConnectedObject)
(%3AidenticalTo
"Instance(connects_1 of Cls(TernaryPredicate))"
"Instance(connects of Cls(SpatialRelation))")
(%3AAXIOMS "\n(UAX-421)\n(<=>\n (connects ?OBJ1 ?OBJ2 ?OBJ3)\n (and\n (connected ?OBJ1 ?OBJ2)\n (connected ?OBJ1 ?OBJ3)\n (not\n (connected ?OBJ2 ?OBJ3))))\n")
(%3ASUO-name "connects"))
([connectsEngineeringComponents] of %3ATernarySlot
(%3ALOAD-SEQUENCE 1809)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [OBJECTS])
(%3ADomain2Class EngineeringComponent)
(%3AidenticalTo
"Instance(connectsEngineeringComponents_2 of Cls(SpatialRelation))"
"Instance(connectsEngineeringComponents_1 of Cls(TernaryPredicate))")
(%3ASUO-name "connectsEngineeringComponents"))
([connectsEngineeringComponents_1] of TernaryPredicate
(%3AidenticalTo
"Instance(connectsEngineeringComponents_2 of Cls(SpatialRelation))"
"Slot(connectsEngineeringComponents)")
(%3ASUO-name "connectsEngineeringComponents"))
([connectsEngineeringComponents_2] of SpatialRelation
(%3AidenticalTo
"Slot(connectsEngineeringComponents)"
"Instance(connectsEngineeringComponents_1 of Cls(TernaryPredicate))")
(%3ASUO-name "connectsEngineeringComponents"))
([ConsciousnessAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2097)
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS [UAX-874]))
([considers] of PropositionalAttitude
(%3Adocumentation "\"(&%considers ?AGENT ?FORMULA) means that ?AGENT considers or wonders about the truth of the proposition expressed by ?FORMULA.\"")
(%3AidenticalTo
"Slot(considers_1)"
"Instance(considers_2 of Cls(BinaryPredicate))")
(%3ASUO-name "considers"))
([considers_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 313)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(considers_2 of Cls(BinaryPredicate))"
"Instance(considers of Cls(PropositionalAttitude))")
(%3ASUO-name "considers"))
([considers_2] of BinaryPredicate
(%3AidenticalTo
"Slot(considers_1)"
"Instance(considers of Cls(PropositionalAttitude))")
(%3ASUO-name "considers"))
([consistent] of BinaryPredicate
(%3Adocumentation "\"(&%consistent ?PROP1 ?PROP2) means that the two &%Propositions ?PROP1 and ?PROP2 are consistent with one another, i.e. it is possible for both of them to be true at the same time.\"")
(%3AidenticalTo
"Slot(consistent_2)"
"Instance(consistent_1 of Cls(SymmetricRelation))")
(%3ASUO-name "consistent"))
([consistent_1] of SymmetricRelation
(%3Adocumentation "\"(&%consistent ?PROP1 ?PROP2) means that the two &%Propositions ?PROP1 and ?PROP2 are consistent with one another, i.e. it is possible for both of them to be true at the same time.\"")
(%3AidenticalTo
"Slot(consistent_2)"
"Instance(consistent of Cls(BinaryPredicate))")
(%3ASUO-name "consistent"))
([consistent_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1880)
(%3AisInModule [QUALITIES])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(consistent of Cls(BinaryPredicate))"
"Instance(consistent_1 of Cls(SymmetricRelation))")
(%3ASUO-name "consistent"))
([ConstantQuantity] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 229)
(disjoint [FunctionQuantity])
(%3AisInModule [BASE_ONTOLOGY]))
([ConstructedLanguage] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 169)
(disjoint [NaturalLanguage])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-069]))
([Constructing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1385)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-588]))
([contains] of SpatialRelation
(%3AidenticalTo
"Slot(contains_2)"
"Instance(contains_1 of Cls(AsymmetricRelation))"
"Instance(contains_3 of Cls(BinaryPredicate))")
(%3Adocumentation "\"The relation of spatial containment for two separable objects. When the two objects are not separable (e.g. an automobile and one of its seats), the relation of &%part should be used. (&%contains ?OBJ1 ?OBJ2) means that the &%SelfConnectedObject ?OBJ1 has a space (i.e. a &%Hole) which is at least partially filled by ?OBJ2.\"")
(%3ASUO-name "contains"))
([contains_1] of AsymmetricRelation
(%3Adocumentation "\"The relation of spatial containment for two separable objects. When the two objects are not separable (e.g. an automobile and one of its seats), the relation of &%part should be used. (&%contains ?OBJ1 ?OBJ2) means that the &%SelfConnectedObject ?OBJ1 has a space (i.e. a &%Hole) which is at least partially filled by ?OBJ2.\"")
(%3AidenticalTo
"Slot(contains_2)"
"Instance(contains of Cls(SpatialRelation))"
"Instance(contains_3 of Cls(BinaryPredicate))")
(%3ASUO-name "contains"))
([contains_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 121)
(disjointRelation [part_2])
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(contains of Cls(SpatialRelation))"
"Instance(contains_1 of Cls(AsymmetricRelation))"
"Instance(contains_3 of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-052)\n(<=>\n (contains ?OBJ1 ?OBJ2)\n (exists (?HOLE)\n (and\n (hole ?HOLE ?OBJ1)\n (properlyFills ?OBJ2 ?HOLE))))\n")
(%3ASUO-name "contains"))
([contains_3] of BinaryPredicate
(%3AidenticalTo
"Slot(contains_2)"
"Instance(contains of Cls(SpatialRelation))"
"Instance(contains_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "contains"))
([containsInformation] of BinaryPredicate
(%3Adocumentation "\"A subrelation of &%represents. This predicate relates a &%ContentBearingObject to the &%Proposition that is expressed by the &%ContentBearingObject. Examples include the relationships between a physical novel and its story and between a printed score and its musical content.\"")
(%3AidenticalTo
"Slot(containsInformation_2)"
"Instance(containsInformation_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "containsInformation"))
([containsInformation_1] of AsymmetricRelation
(%3Adocumentation "\"A subrelation of &%represents. This predicate relates a &%ContentBearingObject to the &%Proposition that is expressed by the &%ContentBearingObject. Examples include the relationships between a physical novel and its story and between a printed score and its musical content.\"")
(%3AidenticalTo
"Slot(containsInformation_2)"
"Instance(containsInformation of Cls(BinaryPredicate))")
(%3ASUO-name "containsInformation"))
([containsInformation_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 157)
(relatedInternalConcept
"ContentBearingObject"
"realization")
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(containsInformation of Cls(BinaryPredicate))"
"Instance(containsInformation_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "containsInformation"))
([ContentBearingObject] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 153)
(relatedInternalConcept "containsInformation")
(%3AisInModule [BASE_ONTOLOGY]))
([ContentDevelopment] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1366)
(relatedInternalConcept "Communication")
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-579]))
([Contest] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1445)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-617]))
([ContestAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1954)
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS [UAX-824]))
([Continent] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1527)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-654]))
([ContinuousFunction] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 373)
(%3AisInModule [BASE_ONTOLOGY]))
([Contract] of DeonticAttribute
(contraryAttribute_2 [NakedPromise])
(%3Adocumentation "\"&%Attribute that applies to &%Propositions that an &%Agent is required, by some authority, to make true.\""))
([contraryAttribute] of Predicate
(%3AidenticalTo
"Slot(contraryAttribute_2)"
"Instance(contraryAttribute_1 of Cls(VariableArityRelation))")
(%3Adocumentation "\"A &%contraryAttribute is a set of &%Attributes such that something can not simultaneously have more than one of these &%Attributes. For example, (&%contraryAttribute &%Pliable &%Rigid) means that nothing can be both &%Pliable and &%Rigid.\"")
(%3ASUO-name "contraryAttribute"))
([contraryAttribute%247] of %3ASUMOProposition
(%3ALOAD-SEQUENCE 1973)
(%3AliteralTranscription "(contraryAttribute NakedPromise Contract)")
(%3AisInModule [QUALITIES])
(%3Adocumentation "\"A &%Promise where nothing is promised in return, i.e. a nudum pactum.\"")
(%3AargumentList
"contraryAttribute"
"NakedPromise"
"Contract"))
([contraryAttribute_1] of VariableArityRelation
(%3AidenticalTo
"Instance(contraryAttribute of Cls(Predicate))"
"Slot(contraryAttribute_2)")
(%3Adocumentation "\"A &%contraryAttribute is a set of &%Attributes such that something can not simultaneously have more than one of these &%Attributes. For example, (&%contraryAttribute &%Pliable &%Rigid) means that nothing can be both &%Pliable and &%Rigid.\"")
(%3ASUO-name "contraryAttribute"))
([contraryAttribute_2] of %3AVariableAritySlot
(%3ALOAD-SEQUENCE 59)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(contraryAttribute of Cls(Predicate))"
"Instance(contraryAttribute_1 of Cls(VariableArityRelation))")
(%3AAXIOMS "\n(UAX-033)\n(=>\n (contraryAttribute @ROW)\n (=>\n (inList ?ELEMENT (ListFn @ROW))\n (instance ?ELEMENT Attribute)))\n\n(UAX-034)\n(=>\n (contraryAttribute @ROW)\n (forall (?ATTR1 ?ATTR2)\n (=>\n (and\n (equal ?ATTR1 (ListOrderFn (ListFn @ROW) ?NUMBER1))\n (equal ?ATTR2 (ListOrderFn (ListFn @ROW) ?NUMBER2))\n (not (equal ?NUMBER1 ?NUMBER2)))\n (=>\n (property ?OBJ ?ATTR1)\n (not (property ?OBJ ?ATTR2))))))\n")
(%3ASUO-name "contraryAttribute"))
([cooccur] of BinaryPredicate
(%3Adocumentation "\"(&%cooccur ?THING1 ?THING2) means that the &%Object or &%Process ?THING1 occurs at the same time as, together with, or jointly with the &%Object or &%Process ?THING2. This covers the following temporal relations: is co-incident with, is concurrent with, is contemporaneous with, and is concomitant with.\"")
(%3AidenticalTo
"Instance(cooccur_1 of Cls(TemporalRelation))"
"Slot(cooccur_3)"
"Instance(cooccur_2 of Cls(EquivalenceRelation))")
(%3ASUO-name "cooccur"))
([cooccur_1] of TemporalRelation
(%3AidenticalTo
"Instance(cooccur of Cls(BinaryPredicate))"
"Slot(cooccur_3)"
"Instance(cooccur_2 of Cls(EquivalenceRelation))")
(%3Adocumentation "\"(&%cooccur ?THING1 ?THING2) means that the &%Object or &%Process ?THING1 occurs at the same time as, together with, or jointly with the &%Object or &%Process ?THING2. This covers the following temporal relations: is co-incident with, is concurrent with, is contemporaneous with, and is concomitant with.\"")
(%3ASUO-name "cooccur"))
([cooccur_2] of EquivalenceRelation
(%3Adocumentation "\"(&%cooccur ?THING1 ?THING2) means that the &%Object or &%Process ?THING1 occurs at the same time as, together with, or jointly with the &%Object or &%Process ?THING2. This covers the following temporal relations: is co-incident with, is concurrent with, is contemporaneous with, and is concomitant with.\"")
(%3AidenticalTo
"Instance(cooccur_1 of Cls(TemporalRelation))"
"Instance(cooccur of Cls(BinaryPredicate))"
"Slot(cooccur_3)")
(%3ASUO-name "cooccur"))
([cooccur_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 900)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(cooccur_1 of Cls(TemporalRelation))"
"Instance(cooccur of Cls(BinaryPredicate))"
"Instance(cooccur_2 of Cls(EquivalenceRelation))")
(%3AAXIOMS "\n(UAX-348)\n(<=>\n (cooccur ?PHYS1 ?PHYS2)\n (equal (WhenFn ?PHYS1) (WhenFn ?PHYS2)))\n")
(%3ASUO-name "cooccur"))
([Cooking] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1390)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-590]))
([Cooling] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1192)
(disjoint [Heating])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-499]))
([Cooperation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1440)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-614]))
([CoordinatedUniversalTimeZone] of TimeZone
(%3Adocumentation "\"A &%TimeZone which functions as the standard time zone. It is also known as Zulu time (in the military), Greenwich Mean Time, and the Western European time zone. Note that whenever a &%TimeZone is not specified, the &%TimePosition is understood to be with respect to the &%CoordinatedUniversalTimeZone.\"")
(%3ASUO-name "CoordinatedUniversalTimeZone"))
([copy] of BinaryPredicate
(%3Adocumentation "\"relates an &%Object to an exact copy of the &%Object, where an exact copy is indistinguishable from the original with regard to every property except (possibly) spatial and/or temporal location.\"")
(%3AidenticalTo
"Instance(copy_1 of Cls(EquivalenceRelation))"
"Slot(copy_2)")
(%3ASUO-name "copy"))
([copy_1] of EquivalenceRelation
(%3Adocumentation "\"relates an &%Object to an exact copy of the &%Object, where an exact copy is indistinguishable from the original with regard to every property except (possibly) spatial and/or temporal location.\"")
(%3AidenticalTo
"Slot(copy_2)"
"Instance(copy of Cls(BinaryPredicate))")
(%3ASUO-name "copy"))
([copy_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 408)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(copy_1 of Cls(EquivalenceRelation))"
"Instance(copy of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-160)\n(=>\n (copy ?OBJ1 ?OBJ2)\n (forall (?ATTR)\n (=>\n (attribute ?OBJ1 ?ATTR)\n (attribute ?OBJ2 ?ATTR))))\n")
(%3ASUO-name "copy"))
([Corporation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1812)
(%3AisInModule [OBJECTS]))
([CorpuscularObject] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 144)
(disjoint [Substance])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-061]))
([CosineFn] of UnaryFunction
(%3Adocumentation "\"(&%CosineFn ?DEGREE) returns the cosine of the &%PlaneAngleMeasure ?DEGREE. The cosine of ?DEGREE is the ratio of the side next to ?DEGREE to the hypotenuse in a right-angled triangle.\"")
(%3AidenticalTo
"Slot(CosineFn_2)"
"Instance(CosineFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "CosineFn"))
([CosineFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(CosineFn of Cls(UnaryFunction))"
"Slot(CosineFn_2)")
(%3Adocumentation "\"(&%CosineFn ?DEGREE) returns the cosine of the &%PlaneAngleMeasure ?DEGREE. The cosine of ?DEGREE is the ratio of the side next to ?DEGREE to the hypotenuse in a right-angled triangle.\"")
(%3ASUO-name "CosineFn"))
([CosineFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 495)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(CosineFn of Cls(UnaryFunction))"
"Instance(CosineFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "CosineFn"))
([Coulomb] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 719)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Coulomb_1 of Cls(SystemeInternationalUnit))"))
([Coulomb_1] of SystemeInternationalUnit
(%3Adocumentation "SI electric charge measure. Symbol: C. It is the quantity of electric charge transported through a cross section of a conductor in an electric circuit during each &%SecondDuration by a current of 1 &%Ampere. Coulomb = s*A.")
(%3AidenticalTo "Cls(Coulomb)"))
([Counting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1310)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-551]))
([Covering] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1227)
(disjoint [Uncovering])
(%3AisInModule [PROCESSES]))
([Creation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1381)
(relatedInternalConcept "Destruction")
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-586]
[UAX-587]))
([crosses] of AsymmetricRelation
(%3Adocumentation "\"(crosses ?OBJ1 ?OBJ2) means that &%Object ?OBJ1 &%traverses Object ?OBJ2, without being &%connected to it.\"")
(%3AidenticalTo
"Instance(crosses_1 of Cls(TransitiveRelation))"
"Instance(crosses_4 of Cls(BinaryRelation))"
"Slot(crosses_2)"
"Instance(crosses_3 of Cls(SpatialRelation))")
(%3ASUO-name "crosses"))
([crosses_1] of TransitiveRelation
(%3Adocumentation "\"(crosses ?OBJ1 ?OBJ2) means that &%Object ?OBJ1 &%traverses Object ?OBJ2, without being &%connected to it.\"")
(%3AidenticalTo
"Instance(crosses of Cls(AsymmetricRelation))"
"Instance(crosses_4 of Cls(BinaryRelation))"
"Slot(crosses_2)"
"Instance(crosses_3 of Cls(SpatialRelation))")
(%3ASUO-name "crosses"))
([crosses_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 440)
(disjointRelation [connected_4])
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(crosses_1 of Cls(TransitiveRelation))"
"Instance(crosses of Cls(AsymmetricRelation))"
"Instance(crosses_4 of Cls(BinaryRelation))"
"Instance(crosses_3 of Cls(SpatialRelation))")
(%3ASUO-name "crosses"))
([crosses_3] of SpatialRelation
(%3AidenticalTo
"Instance(crosses_1 of Cls(TransitiveRelation))"
"Instance(crosses of Cls(AsymmetricRelation))"
"Instance(crosses_4 of Cls(BinaryRelation))"
"Slot(crosses_2)")
(%3ASUO-name "crosses"))
([crosses_4] of BinaryRelation
(%3AidenticalTo
"Instance(crosses_1 of Cls(TransitiveRelation))"
"Instance(crosses of Cls(AsymmetricRelation))"
"Slot(crosses_2)"
"Instance(crosses_3 of Cls(SpatialRelation))")
(%3ASUO-name "crosses"))
([Crustacean] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1595)
(disjoint
[Arachnid]
[Myriapod]
[Insect])
(%3AisInModule [OBJECTS]))
([Cup] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 782)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-295])
(%3AidenticalTo "Instance(Cup_1 of Cls(UnitOfMeasure))"))
([Cup_1] of UnitOfMeasure
(%3AidenticalTo "Cls(Cup)")
(%3Adocumentation "English unit of volume equal to 1/2 of a &%Pint."))
([Currency] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1741)
(partition
[CurrencyBill]
[CurrencyCoin])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-734]))
([CurrencyBill] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1743)
(disjoint [CurrencyCoin])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-735]))
([CurrencyCoin] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1745)
(disjoint [CurrencyBill])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-736]))
([CurrencyMeasure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 650)
(%3AisInModule [UNITS_OF_MEASURE]))
([CutSetFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that assigns a &%Graph the &%Class of &%GraphPaths that partition the graph into two separate graphs if cut. There may be more than one cutset for a given graph.\"")
(%3AidenticalTo "Slot(CutSetFn_1)")
(%3ASUO-name "CutSetFn"))
([CutSetFn_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 633)
(relatedInternalConcept "MinimalCutSetFn")
(%3AisInModule [GRAPH_THEORY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(CutSetFn of Cls(UnaryFunction))")
(%3ASUO-name "CutSetFn"))
([Cutting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1338)
(%3AisInModule [PROCESSES]))
([Damaging] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1329)
(disjoint [Repairing])
(%3AisInModule [PROCESSES]))
([Damp] of SaturationAttribute
(contraryAttribute_2 [Dry])
(%3Adocumentation "\"An &%Attribute which indicates that the associated &%Object contains some &%Liquid.\"")
(%3ASUO-name "Damp"))
([Dancing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1211)
(%3AisInModule [PROCESSES]))
([date] of BinaryPredicate
(%3Adocumentation "\"A &%BinaryPredicate that specifies a &%TimePosition in absolute calendar time, at the resolution of one day, for a particular &%Object or &%Process.\"")
(%3AidenticalTo
"Instance(date_1 of Cls(SingleValuedRelation))"
"Instance(date_2 of Cls(AsymmetricRelation))"
"Instance(date_4 of Cls(TemporalRelation))"
"Slot(date_3)")
(%3ASUO-name "date"))
([date_1] of SingleValuedRelation
(%3AidenticalTo
"Instance(date_2 of Cls(AsymmetricRelation))"
"Instance(date of Cls(BinaryPredicate))"
"Instance(date_4 of Cls(TemporalRelation))"
"Slot(date_3)")
(%3Adocumentation "\"A &%BinaryPredicate that specifies a &%TimePosition in absolute calendar time, at the resolution of one day, for a particular &%Object or &%Process.\"")
(%3ASUO-name "date"))
([date_2] of AsymmetricRelation
(%3Adocumentation "\"A &%BinaryPredicate that specifies a &%TimePosition in absolute calendar time, at the resolution of one day, for a particular &%Object or &%Process.\"")
(%3AidenticalTo
"Instance(date_1 of Cls(SingleValuedRelation))"
"Instance(date of Cls(BinaryPredicate))"
"Instance(date_4 of Cls(TemporalRelation))"
"Slot(date_3)")
(%3ASUO-name "date"))
([date_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 920)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(date_1 of Cls(SingleValuedRelation))"
"Instance(date_2 of Cls(AsymmetricRelation))"
"Instance(date of Cls(BinaryPredicate))"
"Instance(date_4 of Cls(TemporalRelation))")
(%3ASUO-name "date"))
([date_4] of TemporalRelation
(%3AidenticalTo
"Instance(date_1 of Cls(SingleValuedRelation))"
"Instance(date_2 of Cls(AsymmetricRelation))"
"Instance(date of Cls(BinaryPredicate))"
"Slot(date_3)")
(%3ASUO-name "date"))
([daughter] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1562)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3ASUO-name "daughter"))
([Day] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 978)
(relatedInternalConcept
"DayFn"
"DayDuration")
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS [UAX-394]))
([DayDuration] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 749)
(relatedInternalConcept "Day")
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-281])
(%3AidenticalTo "Instance(DayDuration_1 of Cls(UnitOfMeasure))"))
([DayDuration_1] of UnitOfMeasure
(%3AidenticalTo "Cls(DayDuration)")
(%3Adocumentation "Time unit. 1 day = 24 hours."))
([DayFn] of BinaryFunction
(%3AidenticalTo
"Instance(DayFn_1 of Cls(TemporalRelation))"
"Slot(DayFn_2)")
(%3Adocumentation "\"A &%BinaryFunction that assigns a &%PositiveRealNumber and a subclass of &%Months to the &%Days within each &%Month corresponding to that &%PositiveRealNumber. For example, (&%DayFn 16 &%August) is the &%Class of all sixteenth days of August. For another example, (&%DayFn 9 &%Month) would return the class of all ninth days of any month. For still another example, (&%DayFn 18 (&%MonthFn 8 (YearFn 1912))) denotes the 18th day of August 1912.\"")
(%3ASUO-name "DayFn"))
([DayFn_1] of TemporalRelation
(%3AidenticalTo
"Instance(DayFn of Cls(BinaryFunction))"
"Slot(DayFn_2)")
(%3Adocumentation "\"A &%BinaryFunction that assigns a &%PositiveRealNumber and a subclass of &%Months to the &%Days within each &%Month corresponding to that &%PositiveRealNumber. For example, (&%DayFn 16 &%August) is the &%Class of all sixteenth days of August. For another example, (&%DayFn 9 &%Month) would return the class of all ninth days of any month. For still another example, (&%DayFn 18 (&%MonthFn 8 (YearFn 1912))) denotes the 18th day of August 1912.\"")
(%3ASUO-name "DayFn"))
([DayFn_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 923)
(%3ADomain2Type Class)
(%3ADomain1Type Instance)
(relatedInternalConcept "Day")
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain2Class Month)
(%3AidenticalTo
"Instance(DayFn_1 of Cls(TemporalRelation))"
"Instance(DayFn of Cls(BinaryFunction))")
(%3AAXIOMS "\n(UAX-358)\n(=>\n (instance ?DAY (DayFn ?NUMBER ?MONTH))\n (lessThanOrEqualTo ?NUMBER 31))\n\n(UAX-359)\n(=>\n (and\n (instance ?DAY1 (DayFn ?NUMBER1 ?MONTH))\n (instance ?DAY2 (DayFn ?NUMBER2 ?MONTH))\n (equal (SubtractionFn ?NUMBER2 ?NUMBER1) 1))\n (meetsTemporally ?DAY1 ?DAY2))\n")
(%3ASUO-name "DayFn"))
([Dead] of AnimacyAttribute
(%3Adocumentation "\"This &%Attribute applies to &%Organisms that are not alive.\"")
(%3AidenticalTo "Instance(Dead_1 of Cls(ConsciousnessAttribute))")
(%3AAXIOMS "\n(UAX-862)\n(=>\n (instance ?ORG Organism)\n (exists (?ATTR)\n (and\n (instance ?ATTR AnimacyAttribute)\n (attribute ?ORG ?ATTR))))\n")
(%3ASUO-name "Dead"))
([Dead_1] of ConsciousnessAttribute
(contraryAttribute_2 [Living])
(%3Adocumentation "\"This &%Attribute applies to &%Organisms that are neither &%Unconscious nor &%Asleep.\"")
(%3AidenticalTo "Instance(Dead of Cls(AnimacyAttribute))"))
([Death] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1119)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-465]
[UAX-466]))
([December] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 975)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS
[UAX-392]
[UAX-393]))
([Deciding] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1299)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-546]))
([Declaring] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1434)
(disjoint
[Stating]
[Supposing]
[Directing]
[Committing]
[ExpressingInLanguage])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-611]))
([Decoding] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1372)
(disjoint [Encoding])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-581]))
([decreasesLikelihood] of ProbabilityRelation
(%3AidenticalTo
"Slot(decreasesLikelihood_3)"
"Instance(decreasesLikelihood_2 of Cls(IrreflexiveRelation))"
"Instance(decreasesLikelihood_1 of Cls(BinaryPredicate))")
(%3Adocumentation "\"One of the basic &%ProbabilityRelations. (&%decreasesLikelihood ?FORMULA1 ?FORMULA2) means that ?FORMULA2 is less likely to be true if ?FORMULA1 is true.\"")
(%3ASUO-name "decreasesLikelihood"))
([decreasesLikelihood_1] of BinaryPredicate
(%3Adocumentation "\"One of the basic &%ProbabilityRelations. (&%decreasesLikelihood ?FORMULA1 ?FORMULA2) means that ?FORMULA2 is less likely to be true if ?FORMULA1 is true.\"")
(%3AidenticalTo
"Slot(decreasesLikelihood_3)"
"Instance(decreasesLikelihood of Cls(ProbabilityRelation))"
"Instance(decreasesLikelihood_2 of Cls(IrreflexiveRelation))")
(%3ASUO-name "decreasesLikelihood"))
([decreasesLikelihood_2] of IrreflexiveRelation
(%3Adocumentation "\"One of the basic &%ProbabilityRelations. (&%decreasesLikelihood ?FORMULA1 ?FORMULA2) means that ?FORMULA2 is less likely to be true if ?FORMULA1 is true.\"")
(%3AidenticalTo
"Slot(decreasesLikelihood_3)"
"Instance(decreasesLikelihood of Cls(ProbabilityRelation))"
"Instance(decreasesLikelihood_1 of Cls(BinaryPredicate))")
(%3ASUO-name "decreasesLikelihood"))
([decreasesLikelihood_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 290)
(disjointRelation
[increasesLikelihood_3]
[independentProbability_3])
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(decreasesLikelihood of Cls(ProbabilityRelation))"
"Instance(decreasesLikelihood_2 of Cls(IrreflexiveRelation))"
"Instance(decreasesLikelihood_1 of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-099)\n(=>\n (and\n (decreasesLikelihood ?FORMULA1 ?FORMULA2)\n (equal (ProbabilityFn ?FORMULA2) ?NUMBER1)\n (conditionalProbability ?FORMULA1 ?FORMULA2 ?NUMBER2))\n (lessThan ?NUMBER2 ?NUMBER1))\n")
(%3ASUO-name "decreasesLikelihood"))
([Decreasing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1190)
(disjoint [Increasing])
(relatedInternalConcept "Removing")
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-498]))
([DeductiveArgument] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1871)
(partition
[ValidDeductiveArgument]
[InvalidDeductiveArgument])
(%3AisInModule [QUALITIES]))
([DefaultModule] of %3AModule
(%3AStartingBlock 0)
(%3AinputFile "testin.kif")
(%3Adocumentation "The DefaulModule is the module to which input data blocks are assigned until the first module definition block is encountered.")
(%3ASUO-name "DefaultModule"))
([DefensiveManeuver] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1462)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-625]
[UAX-626]
[UAX-627]))
([Demonstrating] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1409)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-601]))
([DenominatorFn] of UnaryFunction
(%3Adocumentation "\"(&%DenominatorFn ?NUMBER) returns the denominator of the canonical reduced form of the &%RealNumber ?NUMBER.\"")
(%3AidenticalTo
"Slot(DenominatorFn_2)"
"Instance(DenominatorFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "DenominatorFn"))
([DenominatorFn_1] of TotalValuedRelation
(%3AidenticalTo
"Slot(DenominatorFn_2)"
"Instance(DenominatorFn of Cls(UnaryFunction))")
(%3Adocumentation "\"(&%DenominatorFn ?NUMBER) returns the denominator of the canonical reduced form of the &%RealNumber ?NUMBER.\"")
(%3ASUO-name "DenominatorFn"))
([DenominatorFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 496)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(DenominatorFn_1 of Cls(TotalValuedRelation))"
"Instance(DenominatorFn of Cls(UnaryFunction))")
(%3ASUO-name "DenominatorFn"))
([DensityFn] of TotalValuedRelation
(%3AidenticalTo
"Slot(DensityFn_1)"
"Instance(DensityFn_2 of Cls(BinaryFunction))")
(%3Adocumentation "\"&%DensityFn maps an instance of &%MassMeasure and an instance of &%VolumeMeasure to the density represented by this proportion of mass and volume. For example, (&%DensityFn (&%MeasureFn 3 &%Gram) (&%MeasureFn 1 &%Liter)) represents the density of 3 grams per liter.\"")
(%3ASUO-name "DensityFn"))
([DensityFn_1] of %3ATernarySlot
(%3ALOAD-SEQUENCE 679)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain2Class VolumeMeasure)
(%3AidenticalTo
"Instance(DensityFn_2 of Cls(BinaryFunction))"
"Instance(DensityFn of Cls(TotalValuedRelation))")
(%3ASUO-name "DensityFn"))
([DensityFn_2] of BinaryFunction
(%3AidenticalTo
"Slot(DensityFn_1)"
"Instance(DensityFn of Cls(TotalValuedRelation))")
(%3ASUO-name "DensityFn"))
([DeonticAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1961)
(%3AisInModule [QUALITIES]))
([depth] of SingleValuedRelation
(%3AidenticalTo
"Instance(depth_2 of Cls(TernaryPredicate))"
"Slot(depth_1)"
"Instance(depth_3 of Cls(SpatialRelation))")
(%3Adocumentation "\"A &%TernaryPredicate that is used to state the &%distance between the &%top of an &%Object and another point that is above the &%top of the &%Object (often this other point will be sea level). Note that this &%Predicate can be used to specify, for example, the depth of marine life or submarines, for example.\"")
(%3ASUO-name "depth"))
([depth_1] of %3ATernarySlot
(%3ALOAD-SEQUENCE 839)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain2Class Physical)
(%3AidenticalTo
"Instance(depth_2 of Cls(TernaryPredicate))"
"Instance(depth of Cls(SingleValuedRelation))"
"Instance(depth_3 of Cls(SpatialRelation))")
(%3AAXIOMS "\n(UAX-315)\n(=>\n (depth ?OBJ1 ?OBJ2 ?DEPTH)\n (orientation ?OBJ1 ?OBJ2 Below))\n\n(UAX-316)\n(=>\n (depth ?OBJ1 ?OBJ2 ?DEPTH)\n (exists (?BOTTOM)\n (and\n (bottom ?BOTTOM ?OBJ1)\n (distance ?BOTTOM ?OBJ2 ?DEPTH))))\n")
(%3ASUO-name "depth"))
([depth_2] of TernaryPredicate
(%3AidenticalTo
"Slot(depth_1)"
"Instance(depth of Cls(SingleValuedRelation))"
"Instance(depth_3 of Cls(SpatialRelation))")
(%3ASUO-name "depth"))
([depth_3] of SpatialRelation
(%3AidenticalTo
"Instance(depth_2 of Cls(TernaryPredicate))"
"Slot(depth_1)"
"Instance(depth of Cls(SingleValuedRelation))")
(%3ASUO-name "depth"))
([Designing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1182)
(%3AisInModule [PROCESSES]))
([desires] of PropositionalAttitude
(%3Adocumentation "\"(&%desires ?AGENT ?FORMULA) means that ?AGENT wants to bring about the state of affairs expressed by ?FORMULA. Note that there is no implication that what is desired by the agent is not already true. Note too that &%desires is distinguished from &%wants only in that the former is a &%PropositionalAttitude, while &%wants is an &%ObjectAttitude.\"")
(%3AidenticalTo
"Slot(desires_1)"
"Instance(desires_2 of Cls(BinaryPredicate))")
(%3ASUO-name "desires"))
([desires_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 312)
(relatedInternalConcept
"wants"
"wants")
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(desires of Cls(PropositionalAttitude))"
"Instance(desires_2 of Cls(BinaryPredicate))")
(%3ASUO-name "desires"))
([desires_2] of BinaryPredicate
(%3AidenticalTo
"Instance(desires of Cls(PropositionalAttitude))"
"Slot(desires_1)")
(%3ASUO-name "desires"))
([destination] of CaseRole
(%3Adocumentation "\"(destination ?PROCESS ?GOAL) means that ?GOAL is the target or goal of the Process ?PROCESS. For example, Danbury would be the destination in the following proposition: Bob went to Danbury. Note that this is a very general &%CaseRole and, in particular, that it covers the concepts of 'recipient' and 'beneficiary'. Thus, John would be the &%destination in the following proposition: Tom gave a book to John.\"")
(%3AidenticalTo "Slot(destination_1)")
(%3ASUO-name "destination"))
([destination_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 277)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(destination of Cls(CaseRole))")
(%3ASUO-name "destination"))
([Destruction] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1330)
(relatedInternalConcept "Creation")
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-561]))
([Detaching] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1341)
(disjoint [Attaching])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-567]))
([DevelopmentalAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2081)
(%3AisInModule [QUALITIES]))
([developmentalForm] of BinaryPredicate
(%3Adocumentation "\"(&%developmentalForm ?OBJECT ?FORM) means that ?FORM is an earlier stage in the individual maturation of ?OBJECT. For example, tadpole and caterpillar are &%developmentalForms of frogs and butterflies, respectively.\"")
(%3AidenticalTo
"Instance(developmentalForm_1 of Cls(AsymmetricRelation))"
"Instance(developmentalForm_2 of Cls(TransitiveRelation))"
"Slot(developmentalForm_3)")
(%3ASUO-name "developmentalForm"))
([developmentalForm_1] of AsymmetricRelation
(%3Adocumentation "\"(&%developmentalForm ?OBJECT ?FORM) means that ?FORM is an earlier stage in the individual maturation of ?OBJECT. For example, tadpole and caterpillar are &%developmentalForms of frogs and butterflies, respectively.\"")
(%3AidenticalTo
"Instance(developmentalForm of Cls(BinaryPredicate))"
"Instance(developmentalForm_2 of Cls(TransitiveRelation))"
"Slot(developmentalForm_3)")
(%3ASUO-name "developmentalForm"))
([developmentalForm_2] of TransitiveRelation
(%3Adocumentation "\"(&%developmentalForm ?OBJECT ?FORM) means that ?FORM is an earlier stage in the individual maturation of ?OBJECT. For example, tadpole and caterpillar are &%developmentalForms of frogs and butterflies, respectively.\"")
(%3AidenticalTo
"Instance(developmentalForm of Cls(BinaryPredicate))"
"Instance(developmentalForm_1 of Cls(AsymmetricRelation))"
"Slot(developmentalForm_3)")
(%3ASUO-name "developmentalForm"))
([developmentalForm_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1543)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(developmentalForm of Cls(BinaryPredicate))"
"Instance(developmentalForm_1 of Cls(AsymmetricRelation))"
"Instance(developmentalForm_2 of Cls(TransitiveRelation))")
(%3AAXIOMS "\n(UAX-660)\n(=>\n (and\n (holdsDuring ?TIME1 (developmentalForm ?OBJ ?ATTR1))\n (successorAttributeClosure ?ATTR2 ?ATTR1))\n (exists (?TIME2)\n (and\n (earlier ?TIME2 ?TIME1)\n (holdsDuring ?TIME2 (developmentalForm ?OBJ ?ATTR2)))))\n")
(%3ASUO-name "developmentalForm"))
([Device] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1780)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS
[UAX-750]
[UAX-751]))
([DiagnosticProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1399)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-596]))
([diameter] of BinaryPredicate
(%3Adocumentation "\"(&%diameter ?CIRCLE ?LENGTH) means that the diameter of the &%Circle ?CIRCLE has a length of ?LENGTH.\"")
(%3AidenticalTo
"Slot(diameter_3)"
"Instance(diameter_2 of Cls(TotalValuedRelation))"
"Instance(diameter_1 of Cls(SingleValuedRelation))")
(%3ASUO-name "diameter"))
([diameter_1] of SingleValuedRelation
(%3AidenticalTo
"Slot(diameter_3)"
"Instance(diameter_2 of Cls(TotalValuedRelation))"
"Instance(diameter of Cls(BinaryPredicate))")
(%3Adocumentation "\"(&%diameter ?CIRCLE ?LENGTH) means that the diameter of the &%Circle ?CIRCLE has a length of ?LENGTH.\"")
(%3ASUO-name "diameter"))
([diameter_2] of TotalValuedRelation
(%3AidenticalTo
"Slot(diameter_3)"
"Instance(diameter_1 of Cls(SingleValuedRelation))"
"Instance(diameter of Cls(BinaryPredicate))")
(%3Adocumentation "\"(&%diameter ?CIRCLE ?LENGTH) means that the diameter of the &%Circle ?CIRCLE has a length of ?LENGTH.\"")
(%3ASUO-name "diameter"))
([diameter_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 833)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(diameter_2 of Cls(TotalValuedRelation))"
"Instance(diameter_1 of Cls(SingleValuedRelation))"
"Instance(diameter of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-852)\n(=>\n (diameter ?CIRCLE ?LENGTH)\n (exists (?HALF)\n (and\n (radius ?CIRCLE ?HALF)\n (equal (MultiplicationFn ?HALF 2) ?LENGTH))))\n")
(%3ASUO-name "diameter"))
([Digesting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1128)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-469]
[UAX-470]))
([DirectedGraph] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 589)
(%3AisInModule [GRAPH_THEORY])
(%3ASLOT-CONSTRAINTS [UAX-240]))
([Directing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1424)
(disjoint
[Stating]
[Supposing]
[Committing]
[ExpressingInLanguage]
[Declaring])
(%3AisInModule [PROCESSES]))
([direction] of CaseRole
(%3Adocumentation "\"(&%direction ?PROC ?ATTR) means that the &%Process ?PROC is moving in the direction ?ATTR. For example, one would use this &%Predicate to represent the fact that Max is moving &%North.\"")
(%3AidenticalTo "Slot(direction_1)")
(%3ASUO-name "direction"))
([direction_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1883)
(%3AisInModule [QUALITIES])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(direction of Cls(CaseRole))")
(%3AAXIOMS "\n(UAX-791)\n(=>\n (holdsDuring ?TIME (direction ?PROC ?ATTR1))\n (forall (?ATTR2)\n (=>\n (holdsDuring ?TIME (direction ?PROC ?ATTR2))\n (equal ?ATTR2 ?ATTR1))))\n")
(%3ASUO-name "direction"))
([DirectionalAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1897)
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS
[UAX-796]
[UAX-797]))
([DirectionChange] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1216)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-507]))
([Discovering] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1292)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-543]
[UAX-544]))
([DiseaseOrSyndrome] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2091)
(%3AisInModule [QUALITIES]))
([disjoint] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 48)
(relatedInternalConcept
"disjointRelation"
"disjointDecomposition")
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(disjoint_1 of Cls(BinaryPredicate))"
"Instance(disjoint_2 of Cls(SymmetricRelation))")
(%3AAXIOMS "(UAX: SUMAX-25)\n(<=>\n (disjoint ?CLASS1 ?CLASS2)\n (and\n (instance ?CLASS1 NonNullSet)\n (instance ?CLASS2 NonNullSet)\n (forall (?INST)\n (not\n (and\n (instance ?INST ?CLASS1)\n (instance ?INST ?CLASS2))))))\n(UAX-025)\n(<=>\n (disjoint ?CLASS1 ?CLASS2)\n (and\n (instance ?CLASS1 NonNullSet)\n (instance ?CLASS2 NonNullSet)\n (forall (?INST)\n (not\n (and\n (instance ?INST ?CLASS1)\n (instance ?INST ?CLASS2))))))\n")
(%3ASUO-name "disjoint"))
([disjoint_1] of BinaryPredicate
(%3Adocumentation "\"&%Classes are &%disjoint only if they share no instances, i.e. just in case the result of applying &%IntersectionFn to them is empty.\"")
(%3AidenticalTo
"Slot(disjoint)"
"Instance(disjoint_2 of Cls(SymmetricRelation))")
(%3ASUO-name "disjoint"))
([disjoint_2] of SymmetricRelation
(%3Adocumentation "\"&%Classes are &%disjoint only if they share no instances, i.e. just in case the result of applying &%IntersectionFn to them is empty.\"")
(%3AidenticalTo
"Slot(disjoint)"
"Instance(disjoint_1 of Cls(BinaryPredicate))")
(%3ASUO-name "disjoint"))
([disjointDecomposition] of %3AVariableAritySlot
(%3ALOAD-SEQUENCE 67)
(relatedInternalConcept
"exhaustiveDecomposition"
"disjoint")
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(disjointDecomposition_1 of Cls(Predicate))"
"Instance(disjointDecomposition_2 of Cls(VariableArityRelation))")
(%3AAXIOMS "(UAX: SUMAX-38)\n(=>\n (disjointDecomposition @ROW)\n (=>\n (inList ?ELEMENT (ListFn @ROW))\n (instance ?ELEMENT Class)))\n\n(UAX: SUMAX-119)\n(=>\n (disjointDecomposition ?CLASS @ROW)\n (forall (?ITEM)\n (=>\n (inList ?ITEM (ListFn @ROW))\n (subclass ?ITEM ?CLASS))))\n\n(UAX: SUMAX-120)\n(=>\n (disjointDecomposition ?CLASS @ROW)\n (forall (?ITEM1 ?ITEM2)\n (=>\n (and\n (inList ?ITEM1 (ListFn @ROW))\n (inList ?ITEM2 (ListFn @ROW))\n (not\n (equal ?ITEM1 ?ITEM2)))\n (disjoint ?ITEM1 ?ITEM2))))\n(UAX-038)\n(=>\n (disjointDecomposition @ROW)\n (=>\n (inList ?ELEMENT (ListFn @ROW))\n (instance ?ELEMENT Class)))\n")
(%3ASUO-name "disjointDecomposition"))
([disjointDecomposition_1] of Predicate
(%3AidenticalTo
"Instance(disjointDecomposition_2 of Cls(VariableArityRelation))"
"Slot(disjointDecomposition)")
(%3Adocumentation "\"A &%disjointDecomposition of a &%Class C is a set of subclasses of C that are mutually &%disjoint.\"")
(%3ASUO-name "disjointDecomposition"))
([disjointDecomposition_2] of VariableArityRelation
(%3AidenticalTo
"Instance(disjointDecomposition_1 of Cls(Predicate))"
"Slot(disjointDecomposition)")
(%3Adocumentation "\"A &%disjointDecomposition of a &%Class C is a set of subclasses of C that are mutually &%disjoint.\"")
(%3ASUO-name "disjointDecomposition"))
([disjointRelation] of %3AVariableAritySlot
(%3ALOAD-SEQUENCE 50)
(relatedInternalConcept "disjoint")
(%3AASSOCIATED-FACET [SKIFcore4_00381])
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(disjointRelation_1 of Cls(Predicate))"
"Instance(disjointRelation_2 of Cls(VariableArityRelation))")
(%3AAXIOMS "(UAX: SUMAX-26)\n(=>\n (and\n (disjointRelation @ROW)\n (inList ?REL (ListFn @ROW)))\n (instance ?REL Relation))\n\n(UAX: SUMAX-27)\n(=>\n (and\n (disjointRelation @ROW)\n (inList ?REL1 (ListFn @ROW))\n (inList ?REL2 (ListFn @ROW))\n (valence ?REL1 ?NUMBER))\n (valence ?REL2 ?NUMBER))\n\n(UAX: SUMAX-32)\n(=>\n (and\n (disjointRelation @ROW1)\n (inList ?REL1 (ListFn @ROW1))\n (inList ?REL2 (ListFn @ROW1))\n (not (equal ?REL1 ?REL2))\n (holds ?REL1 @ROW2))\n (not (holds ?REL2 @ROW2)))\n(UAX-026)\n(=>\n (and\n (disjointRelation @ROW)\n (inList ?REL (ListFn @ROW)))\n (instance ?REL Relation))\n\n(UAX-027)\n(=>\n (and\n (disjointRelation @ROW)\n (inList ?REL1 (ListFn @ROW))\n (inList ?REL2 (ListFn @ROW))\n (valence ?REL1 ?NUMBER))\n (valence ?REL2 ?NUMBER))\n\n(UAX-028)\n(=>\n (and\n (domain ?REL1 ?NUMBER ?CLASS1)\n (domain ?REL2 ?NUMBER ?CLASS2)\n (disjoint ?CLASS1 ?CLASS2))\n (disjointRelation ?REL1 ?REL2))\n\n(UAX-029)\n(=>\n (and\n (domainSubclass ?REL1 ?NUMBER ?CLASS1)\n (domainSubclass ?REL2 ?NUMBER ?CLASS2)\n (disjoint ?CLASS1 ?CLASS2))\n (disjointRelation ?REL1 ?REL2))\n\n(UAX-030)\n(=>\n (and\n (range ?REL1 ?CLASS1)\n (range ?REL2 ?CLASS2)\n (disjoint ?CLASS1 ?CLASS2))\n (disjointRelation ?REL1 ?REL2))\n\n(UAX-031)\n(=>\n (and\n (rangeSubclass ?REL1 ?CLASS1)\n (rangeSubclass ?REL2 ?CLASS2)\n (disjoint ?CLASS1 ?CLASS2))\n (disjointRelation ?REL1 ?REL2))\n\n(UAX-032)\n(=>\n (and\n (disjointRelation @ROW1)\n (inList ?REL1 (ListFn @ROW1))\n (inList ?REL2 (ListFn @ROW1))\n (not (equal ?REL1 ?REL2))\n (holds ?REL1 @ROW2))\n (not (holds ?REL2 @ROW2)))\n")
(%3ASUO-name "disjointRelation"))
([disjointRelation_1] of Predicate
(%3AidenticalTo
"Slot(disjointRelation)"
"Instance(disjointRelation_2 of Cls(VariableArityRelation))")
(%3Adocumentation "\"This predicate relates any number of &%Relations. (&%disjointRelation @ROW) means that any two relations in @ROW have no tuples in common. As a consequence, the intersection of all of the relations in @ROW is the null set.\"")
(%3ASUO-name "disjointRelation"))
([disjointRelation_2] of VariableArityRelation
(%3AidenticalTo
"Instance(disjointRelation_1 of Cls(Predicate))"
"Slot(disjointRelation)")
(%3Adocumentation "\"This predicate relates any number of &%Relations. (&%disjointRelation @ROW) means that any two relations in @ROW have no tuples in common. As a consequence, the intersection of all of the relations in @ROW is the null set.\"")
(%3ASUO-name "disjointRelation"))
([Disseminating] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1407)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-600]))
([distance] of SingleValuedRelation
(%3AidenticalTo
"Instance(distance_1 of Cls(SpatialRelation))"
"Instance(distance_2 of Cls(TernaryPredicate))"
"Slot(distance_3)")
(%3Adocumentation "\"(&%distance ?OBJ1 ?OBJ2 ?QUANT) means that the shortest distance between the two objects ?OBJ1 and ?OBJ2 is ?QUANT. Note that the difference between the predicates &%length and &%distance is that the &%length is used to state the &%LengthMeasure of one of the dimensions of a single object, while &%distance is used to state the &%LengthMeasure that separates two distinct objects.\"")
(%3ASUO-name "distance"))
([distance_1] of SpatialRelation
(%3AidenticalTo
"Instance(distance of Cls(SingleValuedRelation))"
"Instance(distance_2 of Cls(TernaryPredicate))"
"Slot(distance_3)")
(%3Adocumentation "\"(&%distance ?OBJ1 ?OBJ2 ?QUANT) means that the shortest distance between the two objects ?OBJ1 and ?OBJ2 is ?QUANT. Note that the difference between the predicates &%length and &%distance is that the &%length is used to state the &%LengthMeasure of one of the dimensions of a single object, while &%distance is used to state the &%LengthMeasure that separates two distinct objects.\"")
(%3ASUO-name "distance"))
([distance_2] of TernaryPredicate
(%3AidenticalTo
"Instance(distance_1 of Cls(SpatialRelation))"
"Instance(distance of Cls(SingleValuedRelation))"
"Slot(distance_3)")
(%3Adocumentation "\"(&%distance ?OBJ1 ?OBJ2 ?QUANT) means that the shortest distance between the two objects ?OBJ1 and ?OBJ2 is ?QUANT. Note that the difference between the predicates &%length and &%distance is that the &%length is used to state the &%LengthMeasure of one of the dimensions of a single object, while &%distance is used to state the &%LengthMeasure that separates two distinct objects.\"")
(%3ASUO-name "distance"))
([distance_3] of %3ATernarySlot
(%3ALOAD-SEQUENCE 834)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain2Class Physical)
(%3AidenticalTo
"Instance(distance_1 of Cls(SpatialRelation))"
"Instance(distance of Cls(SingleValuedRelation))"
"Instance(distance_2 of Cls(TernaryPredicate))")
(%3AAXIOMS "\n(UAX-312)\n(=>\n (distance ?OBJ1 ?OBJ2 ?QUANT)\n (distance ?OBJ2 ?OBJ1 ?QUANT))\n")
(%3ASUO-name "distance"))
([distributes] of BinaryPredicate
(%3Adocumentation "\"A &%BinaryFunction ?FUNCTION1 is distributive over another &%BinaryFunction ?FUNCTION2 just in case (?FUNCTION1 ?INST1 (?FUNCTION2 ?INST2 ?INST3)) is equal to (?FUNCTION2 (?FUNCTION1 ?INST1 ?INST2) (?FUNCTION1 ?INST1 ?INST3)), for all ?INST1, ?INST2, and ?INST3.\"")
(%3AidenticalTo
"Instance(distributes_1 of Cls(BinaryRelation))"
"Slot(distributes_2)")
(%3ASUO-name "distributes"))
([distributes_1] of BinaryRelation
(%3AidenticalTo
"Instance(distributes of Cls(BinaryPredicate))"
"Slot(distributes_2)")
(%3Adocumentation "\"A &%BinaryFunction ?FUNCTION1 is distributive over another &%BinaryFunction ?FUNCTION2 just in case (?FUNCTION1 ?INST1 (?FUNCTION2 ?INST2 ?INST3)) is equal to (?FUNCTION2 (?FUNCTION1 ?INST1 ?INST2) (?FUNCTION1 ?INST1 ?INST3)), for all ?INST1, ?INST2, and ?INST3.\"")
(%3ASUO-name "distributes"))
([distributes_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 402)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(distributes of Cls(BinaryPredicate))"
"Instance(distributes_1 of Cls(BinaryRelation))")
(%3AAXIOMS "\n(UAX-157)\n(=>\n (distributes ?FUNCTION1 ?FUNCTION2)\n (forall (?INST1 ?INST2 ?INST3)\n (=>\n (and\n (domain ?FUNCTION1 1 ?CLASS1)\n (instance ?INST1 ?CLASS1)\n (instance ?INST2 ?CLASS1)\n (instance ?INST3 ?CLASS1)\n (domain ?FUNCTION2 1 ?CLASS2)\n (instance ?INST1 ?CLASS2)\n (instance ?INST2 ?CLASS2)\n (instance ?INST3 ?CLASS2))\n (equal (AssignmentFn ?FUNCTION1 ?INST1\n (AssignmentFn ?FUNCTION2 ?INST2 ?INST3))\n (AssignmentFn ?FUNCTION2\n (AssignmentFn ?FUNCTION1 ?INST1 ?INST2)\n (AssignmentFn ?FUNCTION1 ?INST1 ?INST3))))))\n")
(%3ASUO-name "distributes"))
([DivisionFn] of BinaryFunction
(%3AidenticalTo
"Instance(DivisionFn_3 of Cls(PartialValuedRelation))"
"Instance(DivisionFn_2 of Cls(RelationExtendedToQuantities))"
"Instance(DivisionFn_1 of Cls(AssociativeFunction))"
"Slot(DivisionFn_4)")
(%3Adocumentation "\"If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%DivisionFn ?NUMBER1 ?NUMBER2) is the result of dividing ?NUMBER1 by ?NUMBER2. An exception occurs when ?NUMBER1 = 1, in which case (&%DivisionFn ?NUMBER1 ?NUMBER2) is the reciprocal of ?NUMBER2.\"")
(%3ASUO-name "DivisionFn"))
([DivisionFn_1] of AssociativeFunction
(%3Adocumentation "\"If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%DivisionFn ?NUMBER1 ?NUMBER2) is the result of dividing ?NUMBER1 by ?NUMBER2. An exception occurs when ?NUMBER1 = 1, in which case (&%DivisionFn ?NUMBER1 ?NUMBER2) is the reciprocal of ?NUMBER2.\"")
(%3AidenticalTo
"Instance(DivisionFn_3 of Cls(PartialValuedRelation))"
"Instance(DivisionFn_2 of Cls(RelationExtendedToQuantities))"
"Instance(DivisionFn of Cls(BinaryFunction))"
"Slot(DivisionFn_4)")
(%3ASUO-name "DivisionFn"))
([DivisionFn_2] of RelationExtendedToQuantities
(%3AidenticalTo
"Instance(DivisionFn_3 of Cls(PartialValuedRelation))"
"Instance(DivisionFn_1 of Cls(AssociativeFunction))"
"Instance(DivisionFn of Cls(BinaryFunction))"
"Slot(DivisionFn_4)")
(%3Adocumentation "\"If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%DivisionFn ?NUMBER1 ?NUMBER2) is the result of dividing ?NUMBER1 by ?NUMBER2. An exception occurs when ?NUMBER1 = 1, in which case (&%DivisionFn ?NUMBER1 ?NUMBER2) is the reciprocal of ?NUMBER2.\"")
(%3ASUO-name "DivisionFn"))
([DivisionFn_3] of PartialValuedRelation
(%3AidenticalTo
"Instance(DivisionFn_2 of Cls(RelationExtendedToQuantities))"
"Instance(DivisionFn_1 of Cls(AssociativeFunction))"
"Instance(DivisionFn of Cls(BinaryFunction))"
"Slot(DivisionFn_4)")
(%3Adocumentation "\"If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%DivisionFn ?NUMBER1 ?NUMBER2) is the result of dividing ?NUMBER1 by ?NUMBER2. An exception occurs when ?NUMBER1 = 1, in which case (&%DivisionFn ?NUMBER1 ?NUMBER2) is the reciprocal of ?NUMBER2.\"")
(%3ASUO-name "DivisionFn"))
([DivisionFn_4] of %3ATernarySlot
(%3ALOAD-SEQUENCE 489)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain2Class Quantity)
(%3AidenticalTo
"Instance(DivisionFn_3 of Cls(PartialValuedRelation))"
"Instance(DivisionFn_2 of Cls(RelationExtendedToQuantities))"
"Instance(DivisionFn_1 of Cls(AssociativeFunction))"
"Instance(DivisionFn of Cls(BinaryFunction))")
(%3AAXIOMS "\n(UAX-194)\n(=>\n (instance ?NUMBER RationalNumber)\n (exists (?INT1 ?INT2)\n (and\n (instance ?INT1 Integer)\n (instance ?INT2 Integer)\n (equal ?NUMBER (DivisionFn ?INT1 ?INT2)))))\n")
(%3ASUO-name "DivisionFn"))
([DocsBlock%3A0000] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1)
(%3AisInModule [DefaultModule])
(%3AcommentLines
";;"
";; ================================================"
";; SUMO (Suggested Upper Merged Ontology)"
";; ================================================"))
([DocsBlock%3A0001] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 2)
(%3AisInModule [DefaultModule])
(%3AcommentLines
";; This is the source file for the SUMO (Suggested Upper Merged Ontology),"
";; an ontology that was developed within the SUO Working Group by merging"
";; the SUO \"candidate content\" sources and refining and extending this content on"
";; the basis of various knowledge engineering projects and input from the SUO"
";; Working Group."))
([DocsBlock%3A0002] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 3)
(%3AisInModule [DefaultModule])
(%3AcommentLines
";; The SUMO incorporates elements of John Sowa's upper ontology (as described at"
";; http://www.bestweb.net/~sowa/ontology/toplevel.htm and in Chapter 2 of his"
";; book _Knowledge Representation_, Brooks/Cole, 2000), Russell and Norvig's"
";; ontology, PSL (Process Specification Language), Casati and Varzi's theory of"
";; holes, Allen's temporal axioms, the relatively noncontroversial elements of"
";; Smith's and Guarino's respective mereotopologies, the KIF formalization of the"
";; CPR (Core Plan Representation), the ontologies available on the Ontolingua"
";; server maintained by Stanford University's Knowledge Systems Laboratory, the"
";; ontologies developed by ITBM-CNR, some of the spatial relations from an"
";; unpublished paper by Iris Tommelein and Anil Gupta entitled \"Conceptual"
";; Structures for Spatial Reasoning\", and a \"Structural Ontology\" proposed by"
";; David Whitten and substantially revised and extended by Chris Menzel."
";; Note that some of the subclasses of 'Process' in the SUMO were originally"
";; inspired by some of the verb classes from the second part of Beth Levin's book"
";; \"English Verb Classes and Alternations: A Preliminary Investigation.\""))
([DocsBlock%3A0003] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 4)
(%3AisInModule [DefaultModule])
(%3AcommentLines
";; The knowledge representation language in which the SUMO is expressed is SUO-KIF,"
";; which stands for \"Standard Upper Ontology - Knowledge Interchange Format\". SUO-KIF"
";; is a simplified form of the popular KIF knowledge representation language. A"
";; specification of SUO-KIF can be found at: http://suo.ieee.org/suo-kif.html. It"
";; should be noted that some of the axioms in the SUMO make use of row variables"
";; (indicated with a \"@\" prefix). Such variables are not currently part of the SUO-"
";; KIF specification, but they simplify matters significantly in some cases. Details"
";; about row variables can be found in the following paper:"
";; http://reliant.teknowledge.com/IJCAI01/HayesMenzel-SKIF-IJCAI2001.pdf."))
([DocsBlock%3A0004] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 5)
(%3AisInModule [DefaultModule])
(%3AcommentLines
";; The SUMO is a modular ontology. That is, the ontology is divided into"
";; self-contained subontologies. Each subontology is indicated by a section"
";; header, and the dependencies between the subontologies are specified with"
";; statements of the form \";; INCLUDES ''\". These statements are"
";; found at the beginning of each section. The dependencies between the"
";; various subontologies can also be graphed informally as follows:"
";;"
";; STRUCTURAL ONTOLOGY"
";; +"
";; |"
";; |"
";; +"
";; BASE ONTOLOGY"
";; / | | \\"
";; / | | \\"
";; / | | \\"
";; / | | \\"
";; / | | \\"
";; + + + +"
";; SET/CLASS THEORY NUMERIC TEMPORAL MEREOTOPOLOGY"
";; / | | |"
";; / | | |"
";; / | | |"
";; + + + +"
";; GRAPH MEASURE PROCESSES +--+ OBJECTS"
";; + +"
";; \\ /"
";; \\ /"
";; \\ /"
";; + +"
";; QUALITIES"
";;"
";;"
";; Note that the \"+\" sign at the end of an arc indicates the direction of"
";; dependency - the node near the sign includes the subontology at the other"
";; end of the arc. Note too that in some cases the dependency is"
";; bidirectional. Separating ontologies in cases like these is useful when"
";; their respective topics can be cleanly differentiated."))
([DocsBlock%3A0005] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 6)
(%3AisInModule [DefaultModule])
(%3AcommentLines
";; The SUMO is copyrighted by Teknowledge (c) 2002. It is released under the"
";; GNU Public License . Users of this"
";; code also consent, by use of this material, to credit Teknowledge in any writings,"
";; briefings, publications, presentations, or other representations of any code"
";; or other product which incorporates, builds on, or uses this material."))
([DocsBlock%3A0006] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 7)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3AcommentLines
";; STRUCTURAL_ONTOLOGY"
";; BEGIN FILE"))
([DocsBlock%3A0007] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 8)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3AcommentLines
";;;;;;;;;;;;;;;;;;;;;;;;;;;;;"
";; STRUCTURAL ONTOLOGY ;;"
";;;;;;;;;;;;;;;;;;;;;;;;;;;;;"))
([DocsBlock%3A0008] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 9)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3AcommentLines ";; INCLUDES 'BASE ONTOLOGY'"))
([DocsBlock%3A0009] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 10)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3AcommentLines
";; The Structural Ontology consists of definitions of certain syntactic"
";; abbreviations that can be both heuristically useful and computationally"
";; advantageous."))
([DocsBlock%3A0010] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 58)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3AcommentLines
";; the domain 1 statement was added to contraryAttribute for the"
";; Protege conversion 10-14-03"))
([DocsBlock%3A0011] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 91)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3AcommentLines
";; The following axiom is commented out, because it is rejected by the"
";; inference engine's parser."))
([DocsBlock%3A0012] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 92)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3AcommentLines
";;(=>"
";; (entails ?FORMULA1 ?FORMULA2)"
";; (=> ?FORMULA1 ?FORMULA2))"))
([DocsBlock%3A0013] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 97)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3AcommentLines ";; END FILE"))
([DocsBlock%3A0014] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 98)
(%3AisInModule [BASE_ONTOLOGY])
(%3AcommentLines
";; BASE_ONTOLOGY"
";; BEGIN FILE"))
([DocsBlock%3A0015] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 99)
(%3AisInModule [BASE_ONTOLOGY])
(%3AcommentLines
";;;;;;;;;;;;;;;;;;;;;;;"
";; BASE ONTOLOGY ;;"
";;;;;;;;;;;;;;;;;;;;;;;"))
([DocsBlock%3A0016] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 100)
(%3AisInModule [BASE_ONTOLOGY])
(%3AcommentLines ";; INCLUDES 'STRUCTURAL ONTOLOGY'"))
([DocsBlock%3A0017] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 101)
(%3AisInModule [BASE_ONTOLOGY])
(%3AcommentLines
";; The following hierarchy incorporates content from Sowa, Russell & Norvig,"
";; and the top-level ontology from ITBM-CNR."))
([DocsBlock%3A0018] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 176)
(%3AisInModule [BASE_ONTOLOGY])
(%3AcommentLines
";; The following ground facts incorporate the 'Agent' hierarchy from the"
";; corresponding ontology on the Ontolingua server. It also includes"
";; predicates defined in the ITBM-CNR ontology \"Actors\"."))
([DocsBlock%3A0019] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 186)
(%3AisInModule [BASE_ONTOLOGY])
(%3AcommentLines
";; Something is Abstract just in case it has neither a spatial nor temporal"
";; location."))
([DocsBlock%3A0020] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 199)
(%3AisInModule [BASE_ONTOLOGY])
(%3AcommentLines
";; The following formulas incorporate the Number hierarchy from the"
";; ontology 'kif-numbers' on the Ontolingua server."))
([DocsBlock%3A0021] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 245)
(%3AisInModule [BASE_ONTOLOGY])
(%3AcommentLines
";; The following part of the ontology covers the various classes under"
";; 'Relation'. Most of the content here is taken from frame-ontology,"
";; abstract-algebra, kif-relations, and kif-extensions (ontologies"
";; available on the Ontolingua server)."))
([DocsBlock%3A0022] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 480)
(%3AisInModule [BASE_ONTOLOGY])
(%3AcommentLines ";; END FILE"))
([DocsBlock%3A0023] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 481)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3AcommentLines
";; NUMERIC_FUNCTIONS"
";; BEGIN FILE"))
([DocsBlock%3A0024] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 482)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3AcommentLines
";;;;;;;;;;;;;;;;;;;;;;;;;;"
";; NUMERIC FUNCTIONS ;;"
";;;;;;;;;;;;;;;;;;;;;;;;;;"))
([DocsBlock%3A0025] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 483)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3AcommentLines
";; INCLUDES 'STRUCTURAL ONTOLOGY'"
";; INCLUDES 'BASE ONTOLOGY'"))
([DocsBlock%3A0026] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 555)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3AcommentLines ";; END FILE"))
([DocsBlock%3A0027] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 556)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3AcommentLines
";; SET/CLASS_THEORY"
";; BEGIN FILE"))
([DocsBlock%3A0028] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 557)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3AcommentLines
";;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;"
";; SET/CLASS THEORY ;;"
";;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;"))
([DocsBlock%3A0029] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 558)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3AcommentLines
";; INCLUDES 'STRUCTURAL ONTOLOGY'"
";; INCLUDES 'BASE ONTOLOGY'"))
([DocsBlock%3A0030] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 559)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3AcommentLines
";; The following part of the ontology covers set-theoretic predicates"
";; and functions. Most of the content here is taken from the kif-sets"
";; ontology (available on the Ontolingua server)."))
([DocsBlock%3A0031] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 582)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3AcommentLines
";; At some point we may be able to make use of 'KappaFn' by implementing a macro"
";; that decomposes every occurrence of 'KappaFn' into a complex formula. For"
";; example the macro might replace every instance of Schema 1 with an instance"
";; of Schema 2."
";;"
";; Schema 1: (KappaFn )"
";;"
";; Schema 2: (exists (?LIST)"
";; (and"
";; (instance ?LIST UniqueList)"
";; (forall ()"
";; (<=>"
";; (inList ?LIST)"
";; ))))"
";;"))
([DocsBlock%3A0032] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 583)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3AcommentLines ";; END FILE"))
([DocsBlock%3A0033] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 584)
(%3AisInModule [GRAPH_THEORY])
(%3AcommentLines
";; GRAPH_THEORY"
";; BEGIN FILE"))
([DocsBlock%3A0034] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 585)
(%3AisInModule [GRAPH_THEORY])
(%3AcommentLines
";;;;;;;;;;;;;;;;;;;;;"
";; GRAPH THEORY ;;"
";;;;;;;;;;;;;;;;;;;;;"))
([DocsBlock%3A0035] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 638)
(%3AisInModule [GRAPH_THEORY])
(%3AcommentLines ";; END FILE"))
([DocsBlock%3A0036] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 639)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines
";; UNITS_OF_MEASURE"
";; BEGIN FILE"))
([DocsBlock%3A0037] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 640)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines
";;;;;;;;;;;;;;;;;;;;;;;;;"
";; UNITS OF MEASURE ;;"
";;;;;;;;;;;;;;;;;;;;;;;;;"))
([DocsBlock%3A0038] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 641)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; INCLUDES 'NUMERIC FUNCTIONS'"))
([DocsBlock%3A0039] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 642)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines
";; This section was originally based on the relations in the Quantities"
";; ontology (developed by ITBM-CNR) and the units of measure in the"
";; \"Standard Units\" and \"Standard Dimensions\" ontologies on the Ontolingua"
";; server. This content has been extensively revised by Helena Sofia Pinto"
";; of the Instituto Superior Tecnico in Portugal. The sources for these"
";; revisions were:"
";; - Barry Taylor, NIST Special Publication 811, Guide for the Use of the"
";; International System of Units (SI), 1995."
";; - Encyclopaedia Britannica (on-line version at http://www.britannica.com)"))
([DocsBlock%3A0040] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 683)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Now the units of measure:"))
([DocsBlock%3A0041] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 684)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines
";; First base units for the SI system. No conversion functions are"
";; provided for these units."))
([DocsBlock%3A0042] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 685)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Length Base Unit"))
([DocsBlock%3A0043] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 687)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Mass Base Unit"))
([DocsBlock%3A0044] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 689)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Time Base Unit"))
([DocsBlock%3A0045] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 691)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Electric Current Base Unit"))
([DocsBlock%3A0046] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 693)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Thermodynamic Temperature Base Unit"))
([DocsBlock%3A0047] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 695)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Amount Of Substance Base Unit"))
([DocsBlock%3A0048] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 697)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Luminosity Intensity Base Unit"))
([DocsBlock%3A0049] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 702)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines
";; What follows are derived SI units with special names and symbols"
";; (multiples and submultiples are together since they represent"
";; quantities of the same kind)."))
([DocsBlock%3A0050] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 703)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Plane angle unit"))
([DocsBlock%3A0051] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 705)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Solid angle unit"))
([DocsBlock%3A0052] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 707)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Frequency units"))
([DocsBlock%3A0053] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 709)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Force Unit"))
([DocsBlock%3A0054] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 711)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Pressure unit"))
([DocsBlock%3A0055] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 713)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Energy Unit"))
([DocsBlock%3A0056] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 715)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Power Units"))
([DocsBlock%3A0057] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 717)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";;; Note: According to SI one should not use the expression \"per unit of.\""))
([DocsBlock%3A0058] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 718)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Electric Charge Units"))
([DocsBlock%3A0059] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 720)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Electric Potential Units"))
([DocsBlock%3A0060] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 722)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Capacitance Units"))
([DocsBlock%3A0061] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 724)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Electric Resistance Units"))
([DocsBlock%3A0062] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 726)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Electric Conductance Units"))
([DocsBlock%3A0063] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 728)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Magnetic Flux Units"))
([DocsBlock%3A0064] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 730)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Magnetic Flux Density Units"))
([DocsBlock%3A0065] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 732)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Inductance Units"))
([DocsBlock%3A0066] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 734)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Celsius Temperature unit"))
([DocsBlock%3A0067] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 738)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Luminous Flux Units"))
([DocsBlock%3A0068] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 740)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Illuminance Units"))
([DocsBlock%3A0069] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 742)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Activity Units"))
([DocsBlock%3A0070] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 744)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Absorbed Dose Units"))
([DocsBlock%3A0071] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 746)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Dose Equivalent Units"))
([DocsBlock%3A0072] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 748)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Units that are accepted for -use- with SI"))
([DocsBlock%3A0073] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 759)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines
";; What follows are units that are also accepted for use with SI. The"
";; SI equivalents for these units are obtained experimentally."))
([DocsBlock%3A0074] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 764)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines
";; The following units have been temporarily accepted for use with"
";; SI units."))
([DocsBlock%3A0075] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 767)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines
";; The following units are unacceptable in SI but are part of other"
";; systems of measurement that are widely used."))
([DocsBlock%3A0076] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 768)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; More Length units"))
([DocsBlock%3A0077] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 775)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; More Volume units"))
([DocsBlock%3A0078] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 788)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; More Mass units"))
([DocsBlock%3A0079] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 794)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; More Temperature units"))
([DocsBlock%3A0080] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 798)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; More Force units"))
([DocsBlock%3A0081] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 801)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; More Energy units"))
([DocsBlock%3A0082] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 806)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; More plane angle units"))
([DocsBlock%3A0083] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 811)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Other interesting units of measure"))
([DocsBlock%3A0084] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 812)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Currency units"))
([DocsBlock%3A0085] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 819)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; Information units"))
([DocsBlock%3A0086] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 828)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines
";; The following content was inspired by the Quantities ontology"
";; developed by ITBM-CNR."))
([DocsBlock%3A0087] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 848)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AcommentLines ";; END FILE"))
([DocsBlock%3A0088] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 849)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3AcommentLines
";; TEMPORAL_CONCEPTS"
";; BEGIN FILE"))
([DocsBlock%3A0089] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 850)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3AcommentLines
";;;;;;;;;;;;;;;;;;;;;;;"
";; TEMPORAL CONCEPTS ;;"
";;;;;;;;;;;;;;;;;;;;;;;"))
([DocsBlock%3A0090] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 851)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3AcommentLines
";; INCLUDES 'STRUCTURAL ONTOLOGY'"
";; INCLUDES 'BASE ONTOLOGY'"))
([DocsBlock%3A0091] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 852)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3AcommentLines
";; The first part of this section contains definitions relations involving"
";; temporal notions. Most of these definitions and axioms were derived from"
";; James Allen's work. This part of the section was extensively revised on"
";; the basis of comments from Pat Hayes. The second part of this section"
";; is an attempt to incorporate the Simple-Time ontology from the"
";; Ontolingua server into the SUMO."))
([DocsBlock%3A0092] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 879)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3AcommentLines
";; An Object exists (and, hence, retains its identity) over time, i.e.,"
";; an object exists at every point over some interval of time."))
([DocsBlock%3A0093] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 902)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3AcommentLines ";; The following functions generate &%TimeIntervals."))
([DocsBlock%3A0094] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 919)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3AcommentLines
";; The following definitions and axioms (down to the next section break)"
";; cover the content in the Simple-Time ontology on the Ontolingua server."))
([DocsBlock%3A0095] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1016)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3AcommentLines ";; END FILE"))
([DocsBlock%3A0096] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1017)
(%3AisInModule [MEREOTOPOLOGY])
(%3AcommentLines
";; MEREOTOPOLOGY"
";; BEGIN FILE"))
([DocsBlock%3A0097] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1018)
(%3AisInModule [MEREOTOPOLOGY])
(%3AcommentLines
";;;;;;;;;;;;;;;;;;;"
";; MEREOTOPOLOGY ;;"
";;;;;;;;;;;;;;;;;;;"))
([DocsBlock%3A0098] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1019)
(%3AisInModule [MEREOTOPOLOGY])
(%3AcommentLines
";; INCLUDES 'STRUCTURAL ONTOLOGY'"
";; INCLUDES 'BASE ONTOLOGY'"))
([DocsBlock%3A0099] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1020)
(%3AisInModule [MEREOTOPOLOGY])
(%3AcommentLines
";; Most of this content is taken from Barry Smith's and Nicola Guarino's"
";; papers on the subject."))
([DocsBlock%3A0100] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1054)
(%3AisInModule [MEREOTOPOLOGY])
(%3AcommentLines
";; What follows is an alignment of Casati and Varzi's formal theory of"
";; holes with the SUMO."))
([DocsBlock%3A0101] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1060)
(%3AisInModule [MEREOTOPOLOGY])
(%3AcommentLines
";; Any two hosts of a hole have a common proper part that entirely hosts"
";; the hole."))
([DocsBlock%3A0102] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1062)
(%3AisInModule [MEREOTOPOLOGY])
(%3AcommentLines ";; A common host of two holes hosts all parts of the sum of those holes."))
([DocsBlock%3A0103] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1064)
(%3AisInModule [MEREOTOPOLOGY])
(%3AcommentLines
";; Any object that includes the host of a hole is a host of that hole,"
";; unless its parts also include parts of that very hole."))
([DocsBlock%3A0104] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1066)
(%3AisInModule [MEREOTOPOLOGY])
(%3AcommentLines ";; Overlapping holes have overlapping hosts."))
([DocsBlock%3A0105] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1068)
(%3AisInModule [MEREOTOPOLOGY])
(%3AcommentLines ";; No hole is atomic"))
([DocsBlock%3A0106] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1070)
(%3AisInModule [MEREOTOPOLOGY])
(%3AcommentLines ";; Topological Definitions"))
([DocsBlock%3A0107] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1071)
(%3AisInModule [MEREOTOPOLOGY])
(%3AcommentLines ";; Definition of 'PrincipalHostFn'"))
([DocsBlock%3A0108] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1074)
(%3AisInModule [MEREOTOPOLOGY])
(%3AcommentLines ";; Holes are connected with their hosts."))
([DocsBlock%3A0109] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1076)
(%3AisInModule [MEREOTOPOLOGY])
(%3AcommentLines
";; No hole can have a proper part that is externally connected"
";; with exactly the same things as the hole itself."))
([DocsBlock%3A0110] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1080)
(%3AisInModule [MEREOTOPOLOGY])
(%3AcommentLines
";; Something is fillable just in case it is part of a hole; i.e.,"
";; fillability is an exclusive property of holes and their parts."))
([DocsBlock%3A0111] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1089)
(%3AisInModule [MEREOTOPOLOGY])
(%3AcommentLines
";; Perfect fillers and fillable entities have no parts in common (rather,"
";; they may occupy the same spatial region)."))
([DocsBlock%3A0112] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1091)
(%3AisInModule [MEREOTOPOLOGY])
(%3AcommentLines
";; A complete filler of (a part of) a hole is connected with everything"
";; with which (that part of) the hole itself is connected."))
([DocsBlock%3A0113] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1093)
(%3AisInModule [MEREOTOPOLOGY])
(%3AcommentLines
";; Every hole is connected with everything with which a proper filler"
";; of the hole is connected."))
([DocsBlock%3A0114] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1095)
(%3AisInModule [MEREOTOPOLOGY])
(%3AcommentLines
";; A perfect filler of (a part of) a hole completely fills every proper"
";; part of (that part of) that hole."))
([DocsBlock%3A0115] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1097)
(%3AisInModule [MEREOTOPOLOGY])
(%3AcommentLines
";; Every proper part of a perfect filler of (a part of) a hole properly"
";; fills (that part of) that hole."))
([DocsBlock%3A0116] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1101)
(%3AisInModule [MEREOTOPOLOGY])
(%3AcommentLines ";; END FILE"))
([DocsBlock%3A0117] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1102)
(%3AisInModule [PROCESSES])
(%3AcommentLines
";; PROCESSES"
";; BEGIN FILE"))
([DocsBlock%3A0118] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1103)
(%3AisInModule [PROCESSES])
(%3AcommentLines
";;;;;;;;;;;;;;;;;;;;;"
";; PROCESSES ;;"
";;;;;;;;;;;;;;;;;;;;;"))
([DocsBlock%3A0119] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1104)
(%3AisInModule [PROCESSES])
(%3AcommentLines
";; INCLUDES 'TEMPORAL CONCEPTS'"
";; INCLUDES 'OBJECTS'"
";; INCLUDES 'QUALITIES'"))
([DocsBlock%3A0120] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1108)
(%3AisInModule [PROCESSES])
(%3AcommentLines ";; Each temporal part of a Process exists at some timepoint."))
([DocsBlock%3A0121] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1110)
(%3AisInModule [PROCESSES])
(%3AcommentLines
";; The following formulas cover the hierarchy of &%Classes under"
";; &%BiologicalProcess."))
([DocsBlock%3A0122] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1503)
(%3AisInModule [PROCESSES])
(%3AcommentLines ";; END FILE"))
([DocsBlock%3A0123] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1504)
(%3AisInModule [OBJECTS])
(%3AcommentLines
";; OBJECTS"
";; BEGIN FILE"))
([DocsBlock%3A0124] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1505)
(%3AisInModule [OBJECTS])
(%3AcommentLines
";;;;;;;;;;;;;;;;;;;"
";; OBJECTS ;;"
";;;;;;;;;;;;;;;;;;;"))
([DocsBlock%3A0125] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1506)
(%3AisInModule [OBJECTS])
(%3AcommentLines
";; INCLUDES 'MEREOTOPOLOGY'"
";; INCLUDES 'PROCESSES'"
";; INCLUDES 'QUALITIES'"))
([DocsBlock%3A0126] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1568)
(%3AisInModule [OBJECTS])
(%3AcommentLines
";; The following formulas incorporate the content in the Natural-Kinds"
";; ontology developed by ITBM-CNR. This content is essentially a set of"
";; high-level biological categories."))
([DocsBlock%3A0127] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1619)
(%3AisInModule [OBJECTS])
(%3AcommentLines
";; The following formulas cover biologically related &%Classes under"
";; &%Substance."))
([DocsBlock%3A0128] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1756)
(%3AisInModule [OBJECTS])
(%3AcommentLines
";; The following part of the ontology will eventually encompass all"
";; artifacts. For the time being, it is mostly restricted to the content"
";; of the Ontolingua ontology component-assemblies, which covers the types"
";; of elements used to construct engineering systems."))
([DocsBlock%3A0129] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1810)
(%3AisInModule [OBJECTS])
(%3AcommentLines
";; This following part contains definitions and axioms relating to social"
";; groups and the relations between them."))
([DocsBlock%3A0130] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1858)
(%3AisInModule [OBJECTS])
(%3AcommentLines ";; END FILE"))
([DocsBlock%3A0131] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1859)
(%3AisInModule [QUALITIES])
(%3AcommentLines
";; QUALITIES"
";; BEGIN FILE"))
([DocsBlock%3A0132] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1860)
(%3AisInModule [QUALITIES])
(%3AcommentLines
";;;;;;;;;;;;;;;;;;;"
";; QUALITIES ;;"
";;;;;;;;;;;;;;;;;;;"))
([DocsBlock%3A0133] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 1861)
(%3AisInModule [QUALITIES])
(%3AcommentLines
";; INCLUDES 'MEREOTOPOLOGY'"
";; INCLUDES 'PROCESSES'"
";; INCLUDES 'OBJECTS'"))
([DocsBlock%3A0134] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 2105)
(%3AisInModule [QUALITIES])
(%3AcommentLines ";; END FILE"))
([DocsBlock%3A0135] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 2106)
(%3AisInModule [Sequestered_Axioms])
(%3AcommentLines
";; Sequestered_Axioms"
";; BEGIN FILE"))
([DocsBlock%3A0136] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 2107)
(%3AisInModule [Sequestered_Axioms])
(%3AcommentLines
";;;;;;;;;;;;;;;;;;;;;;;;;;;;;;"
";; Sequestered Axioms ;;"
";;;;;;;;;;;;;;;;;;;;;;;;;;;;;;"))
([DocsBlock%3A0137] of %3ASKIFdocs
(%3ALOAD-SEQUENCE 2108)
(%3AisInModule [Sequestered_Axioms])
(%3AcommentLines
";; This section is not a subontology of the SUMO. It contains axioms that relate"
";; to other sections of the ontology but that should not be used by the inference"
";; engine, because they can be used to construct arbitrarily complex terms that often"
";; appear in proofs with unhelpful conclusions. Before this file is loaded into the"
";; inference engine, the axioms in this section should be commented out."))
([documentation] of BinaryPredicate
(%3Adocumentation "\"A relation between objects in the domain of discourse and strings of natural language text. The domain of &%documentation is not constants (names), but the objects themselves. This means that one does not quote the names when associating them with their documentation.\"")
(%3AidenticalTo
"Instance(documentation_1 of Cls(AsymmetricRelation))"
"Slot(documentation_2)")
(%3ASUO-name "documentation"))
([documentation_1] of AsymmetricRelation
(%3Adocumentation "\"A relation between objects in the domain of discourse and strings of natural language text. The domain of &%documentation is not constants (names), but the objects themselves. This means that one does not quote the names when associating them with their documentation.\"")
(%3AidenticalTo
"Instance(documentation of Cls(BinaryPredicate))"
"Slot(documentation_2)")
(%3ASUO-name "documentation"))
([documentation_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 47)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(documentation_1 of Cls(AsymmetricRelation))"
"Instance(documentation of Cls(BinaryPredicate))")
(%3ASUO-name "documentation"))
([domain] of TernaryPredicate
(%3AidenticalTo "Slot(domain_1)")
(%3Adocumentation "\"Provides a computationally and heuristically convenient mechanism for declaring the argument types of a given relation. The formula (&%domain ?REL ?INT ?CLASS) means that the ?INT'th element of each tuple in the relation ?REL must be an instance of ?CLASS. Specifying argument types is very helpful in maintaining ontologies. Representation systems can use these specifications to classify terms and check integrity constraints. If the restriction on the argument type of a &%Relation is not captured by a &%SetOrClass already defined in the ontology, one can specify a &%SetOrClass compositionally with the functions &%UnionFn, &%IntersectionFn, etc.\"")
(%3ASUO-name "domain"))
([domain_1] of %3ATernarySlot
(%3ALOAD-SEQUENCE 25)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain2Class PositiveInteger)
(%3AidenticalTo "Instance(domain of Cls(TernaryPredicate))")
(%3AAXIOMS "\n(UAX-009)\n(=>\n (and\n (domain ?REL ?NUMBER ?CLASS1)\n (domain ?REL ?NUMBER ?CLASS2))\n (or\n (subclass ?CLASS1 ?CLASS2)\n (subclass ?CLASS2 ?CLASS1)))\n")
(%3ASUO-name "domain"))
([domainSubclass] of TernaryPredicate
(%3AidenticalTo "Slot(domainSubclass_1)")
(%3Adocumentation "\"&%Predicate used to specify argument type restrictions of &%Predicates. The formula (&%domainSubclass ?REL ?INT ?CLASS) means that the ?INT'th element of each tuple in the relation ?REL must be a subclass of ?CLASS.\"")
(%3ASUO-name "domainSubclass"))
([domainSubclass_1] of %3ATernarySlot
(%3ALOAD-SEQUENCE 27)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain2Class PositiveInteger)
(%3AidenticalTo "Instance(domainSubclass of Cls(TernaryPredicate))")
(%3AAXIOMS "\n(UAX-010)\n(=>\n (and\n (subrelation ?REL1 ?REL2)\n (domainSubclass ?REL2 ?NUMBER ?CLASS1))\n (domainSubclass ?REL1 ?NUMBER ?CLASS1))\n\n(UAX-011)\n(=>\n (and\n (domainSubclass ?REL ?NUMBER ?CLASS1)\n (domainSubclass ?REL ?NUMBER ?CLASS2))\n (or\n (subclass ?CLASS1 ?CLASS2)\n (subclass ?CLASS2 ?CLASS1)))\n")
(%3ASUO-name "domainSubclass"))
([Dressing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1228)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-512]))
([Drinking] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1127)
(%3AisInModule [PROCESSES]))
([Dry] of SaturationAttribute
(contraryAttribute_2 [Damp])
(%3Adocumentation "\"An &%Attribute which indicates that the associated &%Object contains no &%Liquid.\"")
(%3AAXIOMS "\n(UAX-855)\n(=>\n (attribute ?OBJ Dry)\n (not\n (exists (?SUBOBJ)\n (and\n (part ?SUBOBJ ?OBJ)\n (attribute ?SUBOBJ Liquid)))))\n")
(%3ASUO-name "Dry"))
([Drying] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1379)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-585]))
([DualObjectProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 183)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-071]))
([duration] of BinaryPredicate
(%3Adocumentation "\"(&%duration ?POS ?TIME) means that the duration of the &%TimePosition ?POS is ?TIME. Note that this &%Predicate can be used in conjunction with the &%Function &%WhenFn to specify the duration of any instance of &%Physical.\"")
(%3AidenticalTo
"Slot(duration_3)"
"Instance(duration_2 of Cls(TotalValuedRelation))"
"Instance(duration_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "duration"))
([duration_1] of AsymmetricRelation
(%3Adocumentation "\"(&%duration ?POS ?TIME) means that the duration of the &%TimePosition ?POS is ?TIME. Note that this &%Predicate can be used in conjunction with the &%Function &%WhenFn to specify the duration of any instance of &%Physical.\"")
(%3AidenticalTo
"Slot(duration_3)"
"Instance(duration_2 of Cls(TotalValuedRelation))"
"Instance(duration of Cls(BinaryPredicate))")
(%3ASUO-name "duration"))
([duration_2] of TotalValuedRelation
(%3AidenticalTo
"Slot(duration_3)"
"Instance(duration of Cls(BinaryPredicate))"
"Instance(duration_1 of Cls(AsymmetricRelation))")
(%3Adocumentation "\"(&%duration ?POS ?TIME) means that the duration of the &%TimePosition ?POS is ?TIME. Note that this &%Predicate can be used in conjunction with the &%Function &%WhenFn to specify the duration of any instance of &%Physical.\"")
(%3ASUO-name "duration"))
([duration_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 859)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(duration_2 of Cls(TotalValuedRelation))"
"Instance(duration of Cls(BinaryPredicate))"
"Instance(duration_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "duration"))
([during] of TransitiveRelation
(%3Adocumentation "\"(&%during ?INTERVAL1 ?INTERVAL2) means that ?INTERVAL1 starts after and ends before ?INTERVAL2.\"")
(%3AidenticalTo
"Instance(during_1 of Cls(IrreflexiveRelation))"
"Slot(during_2)"
"Instance(during_4 of Cls(TemporalRelation))"
"Instance(during_3 of Cls(BinaryPredicate))")
(%3ASUO-name "during"))
([during_1] of IrreflexiveRelation
(%3Adocumentation "\"(&%during ?INTERVAL1 ?INTERVAL2) means that ?INTERVAL1 starts after and ends before ?INTERVAL2.\"")
(%3AidenticalTo
"Slot(during_2)"
"Instance(during of Cls(TransitiveRelation))"
"Instance(during_4 of Cls(TemporalRelation))"
"Instance(during_3 of Cls(BinaryPredicate))")
(%3ASUO-name "during"))
([during_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 893)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(during_1 of Cls(IrreflexiveRelation))"
"Instance(during of Cls(TransitiveRelation))"
"Instance(during_4 of Cls(TemporalRelation))"
"Instance(during_3 of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-344)\n(=>\n (during ?INTERVAL1 ?INTERVAL2)\n (and\n (before (EndFn ?INTERVAL1) (EndFn ?INTERVAL2))\n (before (BeginFn ?INTERVAL2) (BeginFn ?INTERVAL1))))\n")
(%3ASUO-name "during"))
([during_3] of BinaryPredicate
(%3AidenticalTo
"Instance(during_1 of Cls(IrreflexiveRelation))"
"Slot(during_2)"
"Instance(during of Cls(TransitiveRelation))"
"Instance(during_4 of Cls(TemporalRelation))")
(%3ASUO-name "during"))
([during_4] of TemporalRelation
(%3AidenticalTo
"Instance(during_1 of Cls(IrreflexiveRelation))"
"Slot(during_2)"
"Instance(during of Cls(TransitiveRelation))"
"Instance(during_3 of Cls(BinaryPredicate))")
(%3ASUO-name "during"))
([earlier] of BinaryPredicate
(%3Adocumentation "\"(&%earlier ?INTERVAL1 ?INTERVAL2) means that the &%TimeInterval ?INTERVAL1 ends before the &%TimeInterval ?INTERVAL2 begins.\"")
(%3AidenticalTo
"Slot(earlier_4)"
"Instance(earlier_3 of Cls(IrreflexiveRelation))"
"Instance(earlier_2 of Cls(TransitiveRelation))"
"Instance(earlier_1 of Cls(TemporalRelation))")
(%3ASUO-name "earlier"))
([earlier_1] of TemporalRelation
(%3AidenticalTo
"Instance(earlier of Cls(BinaryPredicate))"
"Slot(earlier_4)"
"Instance(earlier_3 of Cls(IrreflexiveRelation))"
"Instance(earlier_2 of Cls(TransitiveRelation))")
(%3Adocumentation "\"(&%earlier ?INTERVAL1 ?INTERVAL2) means that the &%TimeInterval ?INTERVAL1 ends before the &%TimeInterval ?INTERVAL2 begins.\"")
(%3ASUO-name "earlier"))
([earlier_2] of TransitiveRelation
(%3Adocumentation "\"(&%earlier ?INTERVAL1 ?INTERVAL2) means that the &%TimeInterval ?INTERVAL1 ends before the &%TimeInterval ?INTERVAL2 begins.\"")
(%3AidenticalTo
"Instance(earlier of Cls(BinaryPredicate))"
"Slot(earlier_4)"
"Instance(earlier_3 of Cls(IrreflexiveRelation))"
"Instance(earlier_1 of Cls(TemporalRelation))")
(%3ASUO-name "earlier"))
([earlier_3] of IrreflexiveRelation
(%3Adocumentation "\"(&%earlier ?INTERVAL1 ?INTERVAL2) means that the &%TimeInterval ?INTERVAL1 ends before the &%TimeInterval ?INTERVAL2 begins.\"")
(%3AidenticalTo
"Instance(earlier of Cls(BinaryPredicate))"
"Slot(earlier_4)"
"Instance(earlier_2 of Cls(TransitiveRelation))"
"Instance(earlier_1 of Cls(TemporalRelation))")
(%3ASUO-name "earlier"))
([earlier_4] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 898)
(relatedInternalConcept "before")
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(earlier of Cls(BinaryPredicate))"
"Instance(earlier_3 of Cls(IrreflexiveRelation))"
"Instance(earlier_2 of Cls(TransitiveRelation))"
"Instance(earlier_1 of Cls(TemporalRelation))")
(%3AAXIOMS "\n(UAX-347)\n(<=>\n (earlier ?INTERVAL1 ?INTERVAL2)\n (before (EndFn ?INTERVAL1) (BeginFn ?INTERVAL2)))\n")
(%3ASUO-name "earlier"))
([East] of DirectionalAttribute
(contraryAttribute_2
[North]
[South]
[West])
(%3Adocumentation "\"The compass direction of &%East.\"")
(%3ASUO-name "East"))
([EasternTimeZone] of TimeZone
(%3Adocumentation "\"A &%TimeZone that covers much of the eastern United States.\"")
(%3AAXIOMS "\n(UAX-814)\n(=>\n (equal (RelativeTimeFn ?TIME1 EasternTimeZone) ?TIME2)\n (equal ?TIME2 (AdditionFn ?TIME1 5)))\n")
(%3ASUO-name "EasternTimeZone"))
([Eating] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1125)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-468]))
([EditionFn] of BinaryFunction
(%3AidenticalTo
"Instance(EditionFn_1 of Cls(PartialValuedRelation))"
"Slot(EditionFn_2)")
(%3Adocumentation "\"A &%BinaryFunction that maps a type of text (e.g. Agatha Christie's Murder_on_the_Orient_Express) and a number to the edition of the text type corresponding to the number.\"")
(%3ASUO-name "EditionFn"))
([EditionFn_1] of PartialValuedRelation
(%3AidenticalTo
"Instance(EditionFn of Cls(BinaryFunction))"
"Slot(EditionFn_2)")
(%3Adocumentation "\"A &%BinaryFunction that maps a type of text (e.g. Agatha Christie's Murder_on_the_Orient_Express) and a number to the edition of the text type corresponding to the number.\"")
(%3ASUO-name "EditionFn"))
([EditionFn_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 1722)
(%3ADomain2Type Instance)
(%3ADomain1Type Class)
(%3AisInModule [OBJECTS])
(%3ADomain2Class PositiveInteger)
(%3AidenticalTo
"Instance(EditionFn of Cls(BinaryFunction))"
"Instance(EditionFn_1 of Cls(PartialValuedRelation))")
(%3AAXIOMS "\n(UAX-725)\n(=>\n (and\n (equal (EditionFn ?TEXT ?INT1) ?EDITION1)\n (equal (EditionFn ?TEXT ?INT2) ?EDITION2)\n (greaterThan ?INT2 ?INT1)\n (instance ?PUB1 Publication)\n (instance ?PUB2 Publication)\n (patient ?PUB1 ?EDITION1)\n (patient ?PUB2 ?EDITION2)\n (date ?PUB1 ?DATE1)\n (date ?PUB2 ?DATE2))\n (before (EndFn ?DATE1) (EndFn ?DATE2)))\n\n(UAX-726)\n(=>\n (equal (EditionFn ?TEXT1 ?NUMBER) ?TEXT2)\n (subsumesContentClass ?TEXT1 ?TEXT2))\n")
(%3ASUO-name "EditionFn"))
([editor] of BinaryPredicate
(%3Adocumentation "\"(&%editor ?AGENT ?TEXT) means that ?AGENT is an editor of ?TEXT.\"")
(%3AidenticalTo
"Instance(editor_1 of Cls(AsymmetricRelation))"
"Slot(editor_2)")
(%3ASUO-name "editor"))
([editor_1] of AsymmetricRelation
(%3Adocumentation "\"(&%editor ?AGENT ?TEXT) means that ?AGENT is an editor of ?TEXT.\"")
(%3AidenticalTo
"Instance(editor of Cls(BinaryPredicate))"
"Slot(editor_2)")
(%3ASUO-name "editor"))
([editor_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1719)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(editor of Cls(BinaryPredicate))"
"Instance(editor_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "editor"))
([EducationalOrganization] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1854)
(%3AisInModule [OBJECTS]))
([EducationalProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1254)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-523]))
([Egg] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1665)
(%3AisInModule [OBJECTS]))
([Election] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1159)
(%3AisInModule [PROCESSES]))
([Electron] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 136)
(%3AisInModule [BASE_ONTOLOGY]))
([ElectronVolt] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 762)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-287])
(%3AidenticalTo "Instance(ElectronVolt_1 of Cls(UnitOfMeasure))"))
([ElectronVolt_1] of UnitOfMeasure
(%3AidenticalTo "Cls(ElectronVolt)")
(%3Adocumentation "The &%ElectronVolt is an energy measure. Symbol: eV. It is the kinetic energy acquired by an electron in passing through a potential difference of 1 &%Volt in a vacuum."))
([element] of BinaryPredicate
(%3Adocumentation "\"(element ?ENTITY ?SET) is true just in case ?ENTITY is contained in the &%Set ?SET. An &%Entity can be an &%element of another &%Entity only if the latter is a &%Set.\"")
(%3AidenticalTo
"Instance(element_1 of Cls(AsymmetricRelation))"
"Instance(element_2 of Cls(IntransitiveRelation))"
"Slot(element_3)")
(%3ASUO-name "element"))
([element_1] of AsymmetricRelation
(%3Adocumentation "\"(element ?ENTITY ?SET) is true just in case ?ENTITY is contained in the &%Set ?SET. An &%Entity can be an &%element of another &%Entity only if the latter is a &%Set.\"")
(%3AidenticalTo
"Instance(element of Cls(BinaryPredicate))"
"Instance(element_2 of Cls(IntransitiveRelation))"
"Slot(element_3)")
(%3ASUO-name "element"))
([element_2] of IntransitiveRelation
(%3Adocumentation "\"(element ?ENTITY ?SET) is true just in case ?ENTITY is contained in the &%Set ?SET. An &%Entity can be an &%element of another &%Entity only if the latter is a &%Set.\"")
(%3AidenticalTo
"Instance(element of Cls(BinaryPredicate))"
"Instance(element_1 of Cls(AsymmetricRelation))"
"Slot(element_3)")
(%3ASUO-name "element"))
([element_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 562)
(relatedInternalConcept "member")
(%3AisInModule [SET%2FCLASS_THEORY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(element of Cls(BinaryPredicate))"
"Instance(element_1 of Cls(AsymmetricRelation))"
"Instance(element_2 of Cls(IntransitiveRelation))")
(%3AAXIOMS "\n(UAX-232)\n(=>\n (forall (?ELEMENT)\n (<=>\n (element ?ELEMENT ?SET1)\n (element ?ELEMENT ?SET2)))\n (equal ?SET1 ?SET2))\n")
(%3ASUO-name "element"))
([ElementalSubstance] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 127)
(disjoint [CompoundSubstance])
(%3AisInModule [BASE_ONTOLOGY]))
([Embryonic] of DevelopmentalAttribute
(contraryAttribute_2 [Larval])
(%3Adocumentation "\"The stage of an &%Organism or an &%AnatomicalStructure that exists only before the &%Organism is born. &%Mammals, for example, have this &%Attribute only prior to their birth.\"")
(%3AAXIOMS "\n(UAX-870)\n(=>\n (attribute ?ORG Embryonic)\n (exists (?BODY)\n (and\n (instance ?BODY ReproductiveBody)\n (located ?ORG ?BODY))))\n\n(UAX-871)\n(=>\n (holdsDuring ?TIME (attribute ?ORG Embryonic))\n (holdsDuring ?TIME (not (exists (?BIRTH) (and (instance ?BIRTH Birth) (experiencer ?BIRTH ?ORG))))))\n")
(%3ASUO-name "Embryonic"))
([EmotionalState] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2096)
(%3AisInModule [QUALITIES]))
([employs] of BinaryPredicate
(%3Adocumentation "\"(&%employs ?ORG ?PERSON) means that ?ORG has hired ?PERSON and currently retains ?PERSON, on a salaried or contractual basis, to provide services in exchange for monetary compensation.\"")
(%3AidenticalTo "Slot(employs_1)")
(%3ASUO-name "employs"))
([employs_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1842)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(employs of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-780)\n(=>\n (employs ?ORG ?PERSON)\n (member ?PERSON ?ORG))\n")
(%3ASUO-name "employs"))
([Encoding] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1371)
(disjoint [Decoding])
(%3AisInModule [PROCESSES]))
([EndFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%TimeInterval to the &%TimePoint at which the interval ends.\"")
(%3AidenticalTo
"Slot(EndFn_3)"
"Instance(EndFn_1 of Cls(TemporalRelation))"
"Instance(EndFn_2 of Cls(TotalValuedRelation))")
(%3ASUO-name "EndFn"))
([EndFn_1] of TemporalRelation
(%3AidenticalTo
"Instance(EndFn of Cls(UnaryFunction))"
"Slot(EndFn_3)"
"Instance(EndFn_2 of Cls(TotalValuedRelation))")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%TimeInterval to the &%TimePoint at which the interval ends.\"")
(%3ASUO-name "EndFn"))
([EndFn_2] of TotalValuedRelation
(%3AidenticalTo
"Instance(EndFn of Cls(UnaryFunction))"
"Slot(EndFn_3)"
"Instance(EndFn_1 of Cls(TemporalRelation))")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%TimeInterval to the &%TimePoint at which the interval ends.\"")
(%3ASUO-name "EndFn"))
([EndFn_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 871)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(EndFn of Cls(UnaryFunction))"
"Instance(EndFn_1 of Cls(TemporalRelation))"
"Instance(EndFn_2 of Cls(TotalValuedRelation))")
(%3AAXIOMS "\n(UAX-331)\n(=>\n (equal (EndFn ?INTERVAL) ?POINT)\n (forall (?OTHERPOINT)\n (=>\n (and\n (temporalPart ?OTHERPOINT ?INTERVAL)\n (not (equal ?OTHERPOINT ?POINT)))\n (before ?OTHERPOINT ?POINT))))\n\n(UAX-332)\n(=>\n (and\n (resource ?PROC ?OBJ)\n (holdsDuring (BeginFn (WhenFn ?PROC)) (measure ?OBJ ?QUANT1))\n (holdsDuring (EndFn (WhenFn ?PROC)) (measure ?OBJ ?QUANT2)))\n (greaterThan ?QUANT1 ?QUANT2))\n")
(%3ASUO-name "EndFn"))
([EndNodeFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%GraphPath to the &%GraphNode that is the end of the &%GraphPath. Note that, unlike &%TerminalNodeFn (which relates a &%GraphArc to a &%GraphNode), &%EndNodeFn is a total function - every &%GraphPath has a end.\"")
(%3AidenticalTo
"Slot(EndNodeFn_2)"
"Instance(EndNodeFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "EndNodeFn"))
([EndNodeFn_1] of TotalValuedRelation
(%3AidenticalTo
"Slot(EndNodeFn_2)"
"Instance(EndNodeFn of Cls(UnaryFunction))")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%GraphPath to the &%GraphNode that is the end of the &%GraphPath. Note that, unlike &%TerminalNodeFn (which relates a &%GraphArc to a &%GraphNode), &%EndNodeFn is a total function - every &%GraphPath has a end.\"")
(%3ASUO-name "EndNodeFn"))
([EndNodeFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 620)
(relatedInternalConcept "TerminalNodeFn")
(%3AisInModule [GRAPH_THEORY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(EndNodeFn_1 of Cls(TotalValuedRelation))"
"Instance(EndNodeFn of Cls(UnaryFunction))")
(%3ASUO-name "EndNodeFn"))
([EngineeringComponent] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1800)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-762]))
([EngineeringConnection] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1807)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-766]))
([engineeringSubcomponent] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1802)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3ASUO-name "engineeringSubcomponent"))
([English] of %3ANaturalLanguage)
([entails] of BinaryPredicate
(%3Adocumentation "\"The operator of logical entailment. (&%entails ?FORMULA1 ?FORMULA2) means that ?FORMULA2 can be derived from ?FORMULA1 by means of the proof theory of SUO-KIF.\"")
(%3AidenticalTo
"Instance(entails_1 of Cls(LogicalOperator))"
"Slot(entails_2)")
(%3ASUO-name "entails"))
([entails_1] of LogicalOperator
(%3AidenticalTo
"Instance(entails of Cls(BinaryPredicate))"
"Slot(entails_2)")
(%3Adocumentation "\"The operator of logical entailment. (&%entails ?FORMULA1 ?FORMULA2) means that ?FORMULA2 can be derived from ?FORMULA1 by means of the proof theory of SUO-KIF.\"")
(%3ASUO-name "entails"))
([entails_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 90)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(entails_1 of Cls(LogicalOperator))"
"Instance(entails of Cls(BinaryPredicate))")
(%3ASUO-name "entails"))
([Entity] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(partition
[Physical]
[Abstract])
(%3AisInModule [KIF-core]))
([Enzyme] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1623)
(%3AisInModule [OBJECTS]))
([equal] of BinaryPredicate
(%3Adocumentation "\"(equal ?ENTITY1 ?ENTITY2) is true just in case ?ENTITY1 is identical with ?ENTITY2.\"")
(%3AidenticalTo
"Instance(equal_1 of Cls(EquivalenceRelation))"
"Slot(equal_3)"
"Instance(equal_2 of Cls(RelationExtendedToQuantities))")
(%3ASUO-name "equal"))
([equal_1] of EquivalenceRelation
(%3Adocumentation "\"(equal ?ENTITY1 ?ENTITY2) is true just in case ?ENTITY1 is identical with ?ENTITY2.\"")
(%3AidenticalTo
"Slot(equal_3)"
"Instance(equal of Cls(BinaryPredicate))"
"Instance(equal_2 of Cls(RelationExtendedToQuantities))")
(%3ASUO-name "equal"))
([equal_2] of RelationExtendedToQuantities
(%3AidenticalTo
"Instance(equal_1 of Cls(EquivalenceRelation))"
"Slot(equal_3)"
"Instance(equal of Cls(BinaryPredicate))")
(%3Adocumentation "\"(equal ?ENTITY1 ?ENTITY2) is true just in case ?ENTITY1 is identical with ?ENTITY2.\"")
(%3ASUO-name "equal"))
([equal_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 30)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(equal_1 of Cls(EquivalenceRelation))"
"Instance(equal of Cls(BinaryPredicate))"
"Instance(equal_2 of Cls(RelationExtendedToQuantities))")
(%3AAXIOMS "\n(UAX-012)\n(=>\n (equal ?THING1 ?THING2)\n (forall (?ATTR)\n (<=>\n (property ?THING1 ?ATTR)\n (property ?THING2 ?ATTR))))\n\n(UAX-013)\n(=>\n (equal ?ATTR1 ?ATTR2)\n (forall (?THING)\n (<=>\n (property ?THING ?ATTR1)\n (property ?THING ?ATTR2))))\n\n(UAX-014)\n(=>\n (equal ?THING1 ?THING2)\n (forall (?CLASS)\n (<=>\n (instance ?THING1 ?CLASS)\n (instance ?THING2 ?CLASS))))\n\n(UAX-015)\n(=>\n (equal ?CLASS1 ?CLASS2)\n (forall (?THING)\n (<=>\n (instance ?THING ?CLASS1)\n (instance ?THING ?CLASS2))))\n\n(UAX-016)\n(=>\n (equal ?REL1 ?REL2)\n (forall (@ROW)\n (<=>\n (holds ?REL1 @ROW)\n (holds ?REL2 @ROW))))\n\n(UAX-017)\n(=>\n (equal (ListFn @ROW1) (ListFn @ROW2))\n (<=>\n (holds @ROW1)\n (holds @ROW2)))\n\n(UAX-018)\n(=>\n (equal ?LIST1 ?LIST2)\n (=>\n (and\n (equal ?LIST1 (ListFn @ROW1))\n (equal ?LIST2 (ListFn @ROW2)))\n (forall (?NUMBER)\n (equal (ListOrderFn (ListFn @ROW1) ?NUMBER) (ListOrderFn (ListFn @ROW2) ?NUMBER)))))\n")
(%3ASUO-name "equal"))
([EquivalenceRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 273)
(%3AisInModule [BASE_ONTOLOGY]))
([equivalenceRelationOn] of BinaryPredicate
(%3Adocumentation "\"A &%BinaryRelation is an &%equivalenceRelationOn a &%SetOrClass only if the relation is &%reflexiveOn the &%SetOrClass and it is both a &%TransitiveRelation and a &%SymmetricRelation.\"")
(%3AidenticalTo
"Instance(equivalenceRelationOn_1 of Cls(AsymmetricRelation))"
"Slot(equivalenceRelationOn_2)")
(%3ASUO-name "equivalenceRelationOn"))
([equivalenceRelationOn_1] of AsymmetricRelation
(%3Adocumentation "\"A &%BinaryRelation is an &%equivalenceRelationOn a &%SetOrClass only if the relation is &%reflexiveOn the &%SetOrClass and it is both a &%TransitiveRelation and a &%SymmetricRelation.\"")
(%3AidenticalTo
"Instance(equivalenceRelationOn of Cls(BinaryPredicate))"
"Slot(equivalenceRelationOn_2)")
(%3ASUO-name "equivalenceRelationOn"))
([equivalenceRelationOn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 400)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(equivalenceRelationOn_1 of Cls(AsymmetricRelation))"
"Instance(equivalenceRelationOn of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-156)\n(=>\n (equivalenceRelationOn ?RELATION ?CLASS)\n (and\n (instance ?RELATION TransitiveRelation)\n (instance ?RELATION SymmetricRelation)\n (reflexiveOn ?RELATION ?CLASS)))\n")
(%3ASUO-name "equivalenceRelationOn"))
([equivalentContentClass] of EquivalenceRelation
(%3Adocumentation "\"A &%BinaryPredicate that relates two subclasses of &%ContentBearingObject. (&%equivalentContentClass ?CLASS1 ?CLASS2) means that the content expressed by each instance of ?CLASS1 is also expressed by each instance of ?CLASS2, and vice versa. An example would be the relationship between English and Russian editions of Agatha Christie's 'Murder on the Orient Express'. Note that (&%equivalentContentClass ?CLASS1 ?CLASS2) implies (&%subsumesContentClass ?CLASS1 ?CLASS2) and (&%subsumesContentClass ?CLASS2 ?CLASS1).\"")
(%3AidenticalTo
"Instance(equivalentContentClass_2 of Cls(BinaryPredicate))"
"Slot(equivalentContentClass_1)")
(%3ASUO-name "equivalentContentClass"))
([equivalentContentClass_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 463)
(relatedInternalConcept "equivalentContentInstance")
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Class)
(%3AidenticalTo
"Instance(equivalentContentClass_2 of Cls(BinaryPredicate))"
"Instance(equivalentContentClass of Cls(EquivalenceRelation))")
(%3AAXIOMS "\n(UAX-184)\n(<=>\n (and\n (subsumesContentClass ?CLASS1 ?CLASS2)\n (subsumesContentClass ?CLASS2 ?CLASS1))\n (equivalentContentClass ?CLASS1 ?CLASS2))\n")
(%3ASUO-name "equivalentContentClass"))
([equivalentContentClass_2] of BinaryPredicate
(%3AidenticalTo
"Slot(equivalentContentClass_1)"
"Instance(equivalentContentClass of Cls(EquivalenceRelation))")
(%3ASUO-name "equivalentContentClass"))
([equivalentContentInstance] of EquivalenceRelation
(%3Adocumentation "\"A &%BinaryPredicate relating two instances of &%ContentBearingObject. (&%equivalentContentInstance ?OBJ1 ?OBJ2) means that the content expressed by ?OBJ1 is identical to the content expressed by ?OBJ2. An example would be the relationship between a handwritten draft of a letter to one's lawyer and a typed copy of the same letter. Note that (&%equivalentContentInstance ?OBJ1 ?OBJ2) implies (&%subsumesContentInstance ?OBJ1 ?OBJ2) and (&%subsumesContentInstance ?OBJ2 ?OBJ2).\"")
(%3AidenticalTo
"Instance(equivalentContentInstance_2 of Cls(BinaryPredicate))"
"Slot(equivalentContentInstance_1)")
(%3ASUO-name "equivalentContentInstance"))
([equivalentContentInstance_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 467)
(relatedInternalConcept
"equivalentContentClass"
"realization")
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(equivalentContentInstance_2 of Cls(BinaryPredicate))"
"Instance(equivalentContentInstance of Cls(EquivalenceRelation))")
(%3AAXIOMS "\n(UAX-186)\n(<=>\n (and\n (subsumesContentInstance ?OBJ1 ?OBJ2)\n (subsumesContentInstance ?OBJ2 ?OBJ1))\n (equivalentContentInstance ?OBJ1 ?OBJ2))\n")
(%3ASUO-name "equivalentContentInstance"))
([equivalentContentInstance_2] of BinaryPredicate
(%3AidenticalTo
"Instance(equivalentContentInstance of Cls(EquivalenceRelation))"
"Slot(equivalentContentInstance_1)")
(%3ASUO-name "equivalentContentInstance"))
([EthnicGroup] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1836)
(%3AisInModule [OBJECTS]))
([EuroCent] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 817)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-308])
(%3AidenticalTo "Instance(EuroCent_1 of Cls(UnitOfMeasure))"))
([EuroCent_1] of UnitOfMeasure
(%3AidenticalTo "Cls(EuroCent)")
(%3Adocumentation "A currency measure. 1 &%EuroCent is equal to .01 &%EuroDollars."))
([EuroDollar] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 816)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(EuroDollar_1 of Cls(UnitOfMeasure))"))
([EuroDollar_1] of UnitOfMeasure
(%3AidenticalTo "Cls(EuroDollar)")
(%3Adocumentation "A currency measure of most European Union countries. It is based on the &%UnitedStatesDollar."))
([EvenInteger] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 219)
(disjoint [OddInteger])
(%3AisInModule [BASE_ONTOLOGY]))
([exactlyLocated] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 435)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AAXIOMS "\n(UAX-173)\n(=>\n (exactlyLocated ?OBJ ?REGION)\n (not\n (exists (?OTHEROBJ)\n (and\n (exactlyLocated ?OTHEROBJ ?REGION)\n (not\n (equal ?OTHEROBJ ?OBJ))))))\n")
(%3ASUO-name "exactlyLocated"))
([exhaustiveAttribute] of Predicate
(%3AidenticalTo
"Slot(exhaustiveAttribute_2)"
"Instance(exhaustiveAttribute_1 of Cls(VariableArityRelation))")
(%3Adocumentation "\"This predicate relates a &%Class to a set of &%Attributes, and it means that the elements of this set exhaust the instances of the &%Class. For example, (&%exhaustiveAttribute &%PhysicalState &%Solid &%Liquid &%Gas) means that there are only three instances of the class &%PhysicalState, viz. &%Solid, &%Liquid, and &%Gas.\"")
(%3ASUO-name "exhaustiveAttribute"))
([exhaustiveAttribute_1] of VariableArityRelation
(%3AidenticalTo
"Instance(exhaustiveAttribute of Cls(Predicate))"
"Slot(exhaustiveAttribute_2)")
(%3Adocumentation "\"This predicate relates a &%Class to a set of &%Attributes, and it means that the elements of this set exhaust the instances of the &%Class. For example, (&%exhaustiveAttribute &%PhysicalState &%Solid &%Liquid &%Gas) means that there are only three instances of the class &%PhysicalState, viz. &%Solid, &%Liquid, and &%Gas.\"")
(%3ASUO-name "exhaustiveAttribute"))
([exhaustiveAttribute_2] of %3AVariableAritySlot
(%3ALOAD-SEQUENCE 62)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Class)
(%3AidenticalTo
"Instance(exhaustiveAttribute of Cls(Predicate))"
"Instance(exhaustiveAttribute_1 of Cls(VariableArityRelation))")
(%3AAXIOMS "\n(UAX-035)\n(=>\n (exhaustiveAttribute ?CLASS @ROW)\n (=>\n (inList ?ATTR (ListFn @ROW))\n (instance ?ATTR Attribute)))\n\n(UAX-036)\n(=>\n (exhaustiveAttribute ?CLASS @ROW)\n (forall (?OBJ)\n (=>\n (instance ?ATTR1 ?CLASS)\n (exists (?ATTR2)\n (and\n (inList ?ATTR2 (ListFn @ROW))\n (equal ?ATTR1 ?ATTR2))))))\n")
(%3ASUO-name "exhaustiveAttribute"))
([exhaustiveDecomposition] of Predicate
(%3AidenticalTo
"Instance(exhaustiveDecomposition_1 of Cls(VariableArityRelation))"
"Slot(exhaustiveDecomposition_2)")
(%3Adocumentation "\"An &%exhaustiveDecomposition of a &%Class C is a set of subclasses of C such that every subclass of C either is an element of the set or is a subclass of an element of the set. Note: this does not necessarily mean that the elements of the set are disjoint (see &%partition - a &%partition is a disjoint exhaustive decomposition.)\"")
(%3ASUO-name "exhaustiveDecomposition"))
([exhaustiveDecomposition_1] of VariableArityRelation
(%3AidenticalTo
"Instance(exhaustiveDecomposition of Cls(Predicate))"
"Slot(exhaustiveDecomposition_2)")
(%3Adocumentation "\"An &%exhaustiveDecomposition of a &%Class C is a set of subclasses of C such that every subclass of C either is an element of the set or is a subclass of an element of the set. Note: this does not necessarily mean that the elements of the set are disjoint (see &%partition - a &%partition is a disjoint exhaustive decomposition.)\"")
(%3ASUO-name "exhaustiveDecomposition"))
([exhaustiveDecomposition_2] of %3AVariableAritySlot
(%3ALOAD-SEQUENCE 65)
(relatedInternalConcept
"partition"
"disjointDecomposition")
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(exhaustiveDecomposition of Cls(Predicate))"
"Instance(exhaustiveDecomposition_1 of Cls(VariableArityRelation))")
(%3AAXIOMS "\n(UAX-037)\n(=>\n (exhaustiveDecomposition @ROW)\n (=>\n (inList ?ELEMENT (ListFn @ROW))\n (instance ?ELEMENT Class)))\n")
(%3ASUO-name "exhaustiveDecomposition"))
([exists] of BinaryPredicate
(%3Adocumentation "\"The existential quantifier of predicate logic.\"")
(%3AidenticalTo
"Slot(exists_2)"
"Instance(exists_1 of Cls(LogicalOperator))")
(%3ASUO-name "exists"))
([exists_1] of LogicalOperator
(%3AidenticalTo
"Instance(exists of Cls(BinaryPredicate))"
"Slot(exists_2)")
(%3Adocumentation "\"The existential quantifier of predicate logic.\"")
(%3ASUO-name "exists"))
([exists_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 89)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(exists of Cls(BinaryPredicate))"
"Instance(exists_1 of Cls(LogicalOperator))")
(%3ASUO-name "exists"))
([experiencer] of CaseRole
(%3Adocumentation "\"(&%experiencer ?PROCESS ?AGENT) means that ?AGENT experiences the &%Process ?PROCESS. For example, Yojo is the &%experiencer of seeing in the following proposition: Yojo sees the fish. Note that &%experiencer, unlike &%agent, does not entail a causal relation between its arguments.\"")
(%3AidenticalTo "Slot(experiencer_1)")
(%3ASUO-name "experiencer"))
([experiencer_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 278)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(experiencer of Cls(CaseRole))")
(%3ASUO-name "experiencer"))
([Explanation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1875)
(%3AisInModule [QUALITIES]))
([exploits] of BinaryPredicate
(%3Adocumentation "\"(&%exploits ?OBJ ?AGENT) means that ?OBJ is used by ?AGENT as a &%resource in an unspecified instance of &%Process. This &%Predicate, as its corresponding axiom indicates, is a composition of the relations &%agent and &%resource.\"")
(%3AidenticalTo
"Slot(exploits_2)"
"Instance(exploits_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "exploits"))
([exploits_1] of AsymmetricRelation
(%3Adocumentation "\"(&%exploits ?OBJ ?AGENT) means that ?OBJ is used by ?AGENT as a &%resource in an unspecified instance of &%Process. This &%Predicate, as its corresponding axiom indicates, is a composition of the relations &%agent and &%resource.\"")
(%3AidenticalTo
"Slot(exploits_2)"
"Instance(exploits of Cls(BinaryPredicate))")
(%3ASUO-name "exploits"))
([exploits_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 416)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(exploits of Cls(BinaryPredicate))"
"Instance(exploits_1 of Cls(AsymmetricRelation))")
(%3AAXIOMS "\n(UAX-164)\n(=>\n (exploits ?OBJ ?AGENT)\n (exists (?PROCESS)\n (and\n (agent ?PROCESS ?AGENT)\n (resource ?PROCESS ?OBJ))))\n")
(%3ASUO-name "exploits"))
([ExponentiationFn] of BinaryFunction
(%3AidenticalTo
"Instance(ExponentiationFn_2 of Cls(TotalValuedRelation))"
"Instance(ExponentiationFn_1 of Cls(RelationExtendedToQuantities))"
"Slot(ExponentiationFn_3)")
(%3Adocumentation "\"(&%ExponentiationFn ?NUMBER ?INT) returns the &%RealNumber ?NUMBER raised to the power of the &%Integer ?INT.\"")
(%3ASUO-name "ExponentiationFn"))
([ExponentiationFn_1] of RelationExtendedToQuantities
(%3AidenticalTo
"Instance(ExponentiationFn_2 of Cls(TotalValuedRelation))"
"Instance(ExponentiationFn of Cls(BinaryFunction))"
"Slot(ExponentiationFn_3)")
(%3Adocumentation "\"(&%ExponentiationFn ?NUMBER ?INT) returns the &%RealNumber ?NUMBER raised to the power of the &%Integer ?INT.\"")
(%3ASUO-name "ExponentiationFn"))
([ExponentiationFn_2] of TotalValuedRelation
(%3AidenticalTo
"Instance(ExponentiationFn_1 of Cls(RelationExtendedToQuantities))"
"Instance(ExponentiationFn of Cls(BinaryFunction))"
"Slot(ExponentiationFn_3)")
(%3Adocumentation "\"(&%ExponentiationFn ?NUMBER ?INT) returns the &%RealNumber ?NUMBER raised to the power of the &%Integer ?INT.\"")
(%3ASUO-name "ExponentiationFn"))
([ExponentiationFn_3] of %3ATernarySlot
(%3ALOAD-SEQUENCE 497)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain2Class Integer)
(%3AidenticalTo
"Instance(ExponentiationFn_2 of Cls(TotalValuedRelation))"
"Instance(ExponentiationFn_1 of Cls(RelationExtendedToQuantities))"
"Instance(ExponentiationFn of Cls(BinaryFunction))")
(%3ASUO-name "ExponentiationFn"))
([expressedInLanguage] of BinaryPredicate
(%3Adocumentation "\"(&%expressedInLanguage ?EXPRESS ?LANG) means that ?EXPRESS is expressed in &%Language ?LANG.\"")
(%3AidenticalTo
"Slot(expressedInLanguage_2)"
"Instance(expressedInLanguage_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "expressedInLanguage"))
([expressedInLanguage_1] of AsymmetricRelation
(%3Adocumentation "\"(&%expressedInLanguage ?EXPRESS ?LANG) means that ?EXPRESS is expressed in &%Language ?LANG.\"")
(%3AidenticalTo
"Slot(expressedInLanguage_2)"
"Instance(expressedInLanguage of Cls(BinaryPredicate))")
(%3ASUO-name "expressedInLanguage"))
([expressedInLanguage_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 473)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(expressedInLanguage_1 of Cls(AsymmetricRelation))"
"Instance(expressedInLanguage of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-189)\n(<=>\n (expressedInLanguage ?EXPRESS ?LANGUAGE)\n (exists (?PROP)\n (representsInLanguage ?EXPRESS ?PROP ?LANGUAGE)))\n")
(%3ASUO-name "expressedInLanguage"))
([Expressing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1414)
(partition
[Gesture]
[ExpressingInLanguage])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-603]))
([ExpressingInLanguage] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1418)
(disjoint
[Gesture]
[Stating]
[Supposing]
[Directing]
[Committing]
[Declaring])
(%3AisInModule [PROCESSES]))
([ExtensionFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps an &%Attribute into the &%Class whose condition for membership is the &%Attribute.\"")
(%3AidenticalTo
"Instance(ExtensionFn_1 of Cls(PartialValuedRelation))"
"Slot(ExtensionFn_2)")
(%3ASUO-name "ExtensionFn"))
([ExtensionFn_1] of PartialValuedRelation
(%3AidenticalTo
"Instance(ExtensionFn of Cls(UnaryFunction))"
"Slot(ExtensionFn_2)")
(%3Adocumentation "\"A &%UnaryFunction that maps an &%Attribute into the &%Class whose condition for membership is the &%Attribute.\"")
(%3ASUO-name "ExtensionFn"))
([ExtensionFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 195)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(ExtensionFn of Cls(UnaryFunction))"
"Instance(ExtensionFn_1 of Cls(PartialValuedRelation))")
(%3AAXIOMS "\n(UAX-074)\n(<=>\n (equal (ExtensionFn ?ATTRIBUTE) ?CLASS)\n (equal (AbstractionFn ?CLASS) ?ATTRIBUTE))\n")
(%3ASUO-name "ExtensionFn"))
([Fabric] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1775)
(disjoint [StationaryArtifact])
(%3AisInModule [OBJECTS]))
([faces] of BinaryPredicate
(%3Adocumentation "\"(&%faces ?OBJ ?DIRECTION) means that the front of ?OBJ (see &%FrontFn) is positioned towards the compass direction ?DIRECTION. More precisely, it means that if a line were extended from the center of ?DIRECTION, the line would intersect with the front of ?OBJ before it intersected with its back (see &%BackFn).\"")
(%3AidenticalTo "Slot(faces_1)")
(%3ASUO-name "faces"))
([faces_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1885)
(%3AisInModule [QUALITIES])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(faces of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-792)\n(=>\n (holdsDuring ?TIME (faces ?PROC ?ATTR1))\n (forall (?ATTR2)\n (=>\n (holdsDuring ?TIME (faces ?PROC ?ATTR2))\n (equal ?ATTR2 ?ATTR1))))\n")
(%3ASUO-name "faces"))
([FactualText] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1710)
(disjoint [FictionalText])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-719]))
([FahrenheitDegree] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 797)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(FahrenheitDegree_1 of Cls(UnitOfMeasure))"))
([FahrenheitDegree_1] of UnitOfMeasure
(%3AidenticalTo "Cls(FahrenheitDegree)")
(%3Adocumentation "A &%TemperatureMeasure that is commonly used in the United States. On the Fahrenheit scale, the freezing point of water is 32 &%FahrenheitDegrees, and the boiling point of water is 212 &%FahrenheitDegrees."))
([False] of TruthValue
(contraryAttribute_2 [True])
(%3Adocumentation "\"The &%TruthValue of being false.\"")
(%3ASUO-name "False"))
([FamilyGroup] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1823)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-772]))
([familyRelation] of BinaryPredicate
(%3Adocumentation "\"A very general &%Predicate for biological relationships. (&%familyRelation ?ORGANISM1 ?ORGANISM2) means that ?ORGANISM1 and ?ORGANISM2 are biologically derived from a common ancestor.\"")
(%3AidenticalTo
"Instance(familyRelation_1 of Cls(EquivalenceRelation))"
"Slot(familyRelation_2)")
(%3ASUO-name "familyRelation"))
([familyRelation_1] of EquivalenceRelation
(%3Adocumentation "\"A very general &%Predicate for biological relationships. (&%familyRelation ?ORGANISM1 ?ORGANISM2) means that ?ORGANISM1 and ?ORGANISM2 are biologically derived from a common ancestor.\"")
(%3AidenticalTo
"Instance(familyRelation of Cls(BinaryPredicate))"
"Slot(familyRelation_2)")
(%3ASUO-name "familyRelation"))
([familyRelation_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1829)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(familyRelation_1 of Cls(EquivalenceRelation))"
"Instance(familyRelation of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-775)\n(=>\n (familyRelation ?ORGANISM1 ?ORGANISM2)\n (exists (?ORGANISM3)\n (and\n (familyRelation ?ORGANISM3 ?ORGANISM1)\n (familyRelation ?ORGANISM3 ?ORGANISM2))))\n")
(%3ASUO-name "familyRelation"))
([Farad] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 723)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Farad_1 of Cls(SystemeInternationalUnit))"))
([Farad_1] of SystemeInternationalUnit
(%3Adocumentation "SI capacitance measure. Symbol: F. It is the capacitance of a capacitator between the plates of which there appears a difference of potential of 1 &%Volt when it is charged by a quantity of electricity equal to 1 Coulomb. &%Farad = C/V = m^(-2)*kg(-1)*s^4*A^2.")
(%3AidenticalTo "Cls(Farad)"))
([father] of SingleValuedRelation
(%3AidenticalTo "Slot(father_1)")
(%3Adocumentation "\"The general relationship of fatherhood. (&%father ?CHILD ?FATHER) means that ?FATHER is the biological father of ?CHILD.\"")
(%3ASUO-name "father"))
([father_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1558)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(father of Cls(SingleValuedRelation))")
(%3AAXIOMS "\n(UAX-668)\n(=>\n (father ?CHILD ?FATHER)\n (attribute ?FATHER Male))\n")
(%3ASUO-name "father"))
([FatTissue] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1688)
(disjoint
[Bone]
[Muscle])
(%3AisInModule [OBJECTS]))
([February] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 944)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS
[UAX-371]
[UAX-372]
[UAX-373]))
([Feline] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1609)
(disjoint [Canine])
(%3AisInModule [OBJECTS]))
([Female] of SexAttribute
(contraryAttribute_2 [Male])
(%3Adocumentation "\"An &%Attribute indicating that an &%Organism is female in nature.\"")
(%3AAXIOMS "\n(UAX-863)\n(=>\n (and\n (instance ?BODY ReproductiveBody)\n (part ?BODY ?ORG)\n (instance ?ORG Organism))\n(attribute ?ORG Female))\n\n(UAX-864)\n(=>\n (instance ?WOMAN Woman)\n (attribute ?WOMAN Female))\n")
(%3ASUO-name "Female"))
([Fern] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1577)
(disjoint
[Alga]
[Fungus]
[Moss])
(%3AisInModule [OBJECTS]))
([FictionalText] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1712)
(disjoint [FactualText])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-720]))
([FieldOfStudy] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1862)
(%3AisInModule [QUALITIES]))
([Fillable] of ShapeAttribute
(%3Adocumentation "\"Something is &%Fillable if it can be filled by something else. Note that 'filled' here means perfectly filled.\"")
(%3AAXIOMS "\n(UAX-448)\n(=>\n (exists (?TIME)\n (holdsDuring ?TIME\n (fills ?OBJ ?HOLE)))\n (attribute ?HOLE Fillable))\n\n(UAX-449)\n(<=>\n (attribute ?HOLE1 Fillable)\n (exists (?HOLE2)\n (and\n (instance ?HOLE2 Hole)\n (part ?HOLE1 ?HOLE2))))\n")
(%3ASUO-name "Fillable"))
([fills] of AsymmetricRelation
(%3Adocumentation "\"Holes can be filled. (&%fills ?OBJ ?HOLE) means that the &%Object ?OBJ fills the &%Hole ?HOLE. Note that &%fills here means perfectly filled.\"")
(%3AidenticalTo "Slot(fills_1)")
(%3ASUO-name "fills"))
([fills_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1088)
(relatedInternalConcept "Fillable")
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(fills of Cls(AsymmetricRelation))")
(%3AAXIOMS "\n(UAX-453)\n(=>\n (and\n (fills ?OBJ1 ?HOLE)\n (attribute ?OBJ2 Fillable))\n (not\n (overlapsSpatially ?OBJ1 ?OBJ2)))\n\n(UAX-454)\n(=>\n (completelyFills ?OBJ1 ?HOLE)\n (forall (?OBJ2)\n (=>\n (connected ?OBJ2 ?HOLE)\n (connected ?OBJ2 ?OBJ1))))\n\n(UAX-455)\n(=>\n (and\n (properlyFills ?OBJ1 ?HOLE)\n (connected ?OBJ2 ?OBJ1))\n (connected ?HOLE ?OBJ2))\n\n(UAX-456)\n(=>\n (and\n (fills ?OBJ ?HOLE1)\n (properPart ?HOLE2 ?HOLE1))\n (completelyFills ?OBJ ?HOLE2))\n\n(UAX-457)\n(=>\n (and\n (fills ?OBJ1 ?HOLE)\n (properPart ?OBJ2 ?OBJ1))\n (properlyFills ?OBJ2 ?HOLE))\n")
(%3ASUO-name "fills"))
([FinancialInstrument] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1740)
(relatedInternalConcept "fills")
(%3AisInModule [OBJECTS]))
([FinancialTransaction] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1277)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-535]))
([finishes] of BinaryPredicate
(%3Adocumentation "\"(&%finishes ?INTERVAL1 ?INTERVAL2) means that ?INTERVAL1 and ?INTERVAL2 are both &%TimeIntervals that have the same ending &%TimePoint and that ?INTERVAL2 begins before ?INTERVAL1.\"")
(%3AidenticalTo
"Instance(finishes_2 of Cls(TransitiveRelation))"
"Instance(finishes_3 of Cls(IrreflexiveRelation))"
"Instance(finishes_1 of Cls(TemporalRelation))"
"Slot(finishes_4)")
(%3ASUO-name "finishes"))
([finishes_1] of TemporalRelation
(%3AidenticalTo
"Instance(finishes_2 of Cls(TransitiveRelation))"
"Instance(finishes_3 of Cls(IrreflexiveRelation))"
"Instance(finishes of Cls(BinaryPredicate))"
"Slot(finishes_4)")
(%3Adocumentation "\"(&%finishes ?INTERVAL1 ?INTERVAL2) means that ?INTERVAL1 and ?INTERVAL2 are both &%TimeIntervals that have the same ending &%TimePoint and that ?INTERVAL2 begins before ?INTERVAL1.\"")
(%3ASUO-name "finishes"))
([finishes_2] of TransitiveRelation
(%3Adocumentation "\"(&%finishes ?INTERVAL1 ?INTERVAL2) means that ?INTERVAL1 and ?INTERVAL2 are both &%TimeIntervals that have the same ending &%TimePoint and that ?INTERVAL2 begins before ?INTERVAL1.\"")
(%3AidenticalTo
"Instance(finishes_3 of Cls(IrreflexiveRelation))"
"Instance(finishes_1 of Cls(TemporalRelation))"
"Instance(finishes of Cls(BinaryPredicate))"
"Slot(finishes_4)")
(%3ASUO-name "finishes"))
([finishes_3] of IrreflexiveRelation
(%3Adocumentation "\"(&%finishes ?INTERVAL1 ?INTERVAL2) means that ?INTERVAL1 and ?INTERVAL2 are both &%TimeIntervals that have the same ending &%TimePoint and that ?INTERVAL2 begins before ?INTERVAL1.\"")
(%3AidenticalTo
"Instance(finishes_2 of Cls(TransitiveRelation))"
"Instance(finishes_1 of Cls(TemporalRelation))"
"Instance(finishes of Cls(BinaryPredicate))"
"Slot(finishes_4)")
(%3ASUO-name "finishes"))
([finishes_4] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 876)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(finishes_2 of Cls(TransitiveRelation))"
"Instance(finishes_3 of Cls(IrreflexiveRelation))"
"Instance(finishes_1 of Cls(TemporalRelation))"
"Instance(finishes of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-334)\n(<=>\n (finishes ?INTERVAL1 ?INTERVAL2)\n (and\n (before\n (BeginFn ?INTERVAL2)\n (BeginFn ?INTERVAL1))\n (equal\n (EndFn ?INTERVAL2)\n (EndFn ?INTERVAL1))))\n")
(%3ASUO-name "finishes"))
([FiniteSet] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 575)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3ASLOT-CONSTRAINTS [UAX-235]))
([Fish] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1600)
(disjoint
[Amphibian]
[Reptile])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-678]))
([FloorFn] of UnaryFunction
(%3Adocumentation "\"(&%FloorFn ?NUMBER) returns the largest &%Integer less than or equal to the &%RealNumber ?NUMBER.\"")
(%3AidenticalTo
"Slot(FloorFn_2)"
"Instance(FloorFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "FloorFn"))
([FloorFn_1] of TotalValuedRelation
(%3AidenticalTo
"Slot(FloorFn_2)"
"Instance(FloorFn of Cls(UnaryFunction))")
(%3Adocumentation "\"(&%FloorFn ?NUMBER) returns the largest &%Integer less than or equal to the &%RealNumber ?NUMBER.\"")
(%3ASUO-name "FloorFn"))
([FloorFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 498)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(FloorFn_1 of Cls(TotalValuedRelation))"
"Instance(FloorFn of Cls(UnaryFunction))")
(%3AAXIOMS "\n(UAX-197)\n(=>\n (equal (FloorFn ?NUMBER) ?INT)\n (not\n (exists (?OTHERINT)\n (and\n (instance ?OTHERINT Integer)\n (lessThanOrEqualTo ?OTHERINT ?NUMBER)\n (greaterThan ?OTHERINT ?INT)))))\n")
(%3ASUO-name "FloorFn"))
([FloweringPlant] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1570)
(disjoint [NonFloweringPlant])
(%3AisInModule [OBJECTS]))
([Fluid] of PhysicalState
(%3Adocumentation "\"&%Fluid is the &%PhysicalState attribute of an &%Object that does not have a fixed shape and thus tends to flow or to conform to the shape of a container.\"")
(%3ASUO-name "Fluid"))
([Food] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1644)
(disjointDecomposition
[Meat]
[Beverage])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS
[UAX-688]
[UAX-689]))
([FootLength] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 769)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-289])
(%3AidenticalTo "Instance(FootLength_1 of Cls(UnitOfMeasure))"))
([FootLength_1] of UnitOfMeasure
(%3AidenticalTo "Cls(FootLength)")
(%3Adocumentation "English length unit of feet."))
([forall] of BinaryPredicate
(%3Adocumentation "\"The universal quantifier of predicate logic.\"")
(%3AidenticalTo
"Instance(forall_1 of Cls(LogicalOperator))"
"Slot(forall_2)")
(%3ASUO-name "forall"))
([forall_1] of LogicalOperator
(%3AidenticalTo
"Instance(forall of Cls(BinaryPredicate))"
"Slot(forall_2)")
(%3Adocumentation "\"The universal quantifier of predicate logic.\"")
(%3ASUO-name "forall"))
([forall_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 88)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(forall_1 of Cls(LogicalOperator))"
"Instance(forall of Cls(BinaryPredicate))")
(%3ASUO-name "forall"))
([Formula] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 175)
(%3AisInModule [BASE_ONTOLOGY]))
([Fragile] of BreakabilityAttribute
(contraryAttribute_2 [Unbreakable])
(%3Adocumentation "\"An &%Attribute which indicates that the associated &%Object is very breakable.\"")
(%3ASUO-name "Fragile"))
([Freezing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1500)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-644]
[UAX-645]))
([French] of %3ANaturalLanguage)
([frequency] of BinaryPredicate
(%3Adocumentation "\"(frequency ?PROC ?TIME) means that the &%Process type of ?PROC recurs after every interval of ?TIME.\"")
(%3AidenticalTo
"Instance(frequency_1 of Cls(AsymmetricRelation))"
"Slot(frequency_2)")
(%3ASUO-name "frequency"))
([frequency_1] of AsymmetricRelation
(%3Adocumentation "\"(frequency ?PROC ?TIME) means that the &%Process type of ?PROC recurs after every interval of ?TIME.\"")
(%3AidenticalTo
"Instance(frequency of Cls(BinaryPredicate))"
"Slot(frequency_2)")
(%3ASUO-name "frequency"))
([frequency_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 860)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain1Type Class)
(%3AidenticalTo
"Instance(frequency of Cls(BinaryPredicate))"
"Instance(frequency_1 of Cls(AsymmetricRelation))")
(%3AAXIOMS "\n(UAX-323)\n(=>\n (frequency ?PROC ?TIME1)\n (forall (?TIME2)\n (=>\n (duration ?TIME2 ?TIME1)\n (exists (?POSITION)\n (and\n (temporalPart ?POSITION ?TIME2)\n (holdsDuring ?POSITION (exists (?INST) (instance ?INST ?PROC))))))))\n")
(%3ASUO-name "frequency"))
([FreshWaterArea] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1520)
(disjoint [SaltWaterArea])
(%3AisInModule [OBJECTS]))
([Friday] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 987)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS [UAX-398]))
([FrontFn] of UnaryFunction
(%3Adocumentation "\"A &%Function that maps an &%Object to the side that generally receives the most attention or that typically faces the direction in which the &%Object moves. Note that this is a partial function, since some &%Objects do not have sides, e.g. apples and spheres. Note too that the &%range of this &%Function is indefinite in much the way that &%ImmediateFutureFn and &%ImmediatePastFn are indefinite. Although this indefiniteness is undesirable from a theoretical standpoint, it does not have significant practical implications, since there is widespread intersubjective agreement about the most common cases.\"")
(%3AidenticalTo
"Instance(FrontFn_4 of Cls(IrreflexiveRelation))"
"Instance(FrontFn_1 of Cls(SpatialRelation))"
"Instance(FrontFn_3 of Cls(AsymmetricRelation))"
"Instance(FrontFn_2 of Cls(PartialValuedRelation))"
"Slot(FrontFn_5)")
(%3ASUO-name "FrontFn"))
([FrontFn_1] of SpatialRelation
(%3AidenticalTo
"Instance(FrontFn_4 of Cls(IrreflexiveRelation))"
"Instance(FrontFn of Cls(UnaryFunction))"
"Instance(FrontFn_3 of Cls(AsymmetricRelation))"
"Instance(FrontFn_2 of Cls(PartialValuedRelation))"
"Slot(FrontFn_5)")
(%3Adocumentation "\"A &%Function that maps an &%Object to the side that generally receives the most attention or that typically faces the direction in which the &%Object moves. Note that this is a partial function, since some &%Objects do not have sides, e.g. apples and spheres. Note too that the &%range of this &%Function is indefinite in much the way that &%ImmediateFutureFn and &%ImmediatePastFn are indefinite. Although this indefiniteness is undesirable from a theoretical standpoint, it does not have significant practical implications, since there is widespread intersubjective agreement about the most common cases.\"")
(%3ASUO-name "FrontFn"))
([FrontFn_2] of PartialValuedRelation
(%3AidenticalTo
"Instance(FrontFn_4 of Cls(IrreflexiveRelation))"
"Instance(FrontFn_1 of Cls(SpatialRelation))"
"Instance(FrontFn of Cls(UnaryFunction))"
"Instance(FrontFn_3 of Cls(AsymmetricRelation))"
"Slot(FrontFn_5)")
(%3Adocumentation "\"A &%Function that maps an &%Object to the side that generally receives the most attention or that typically faces the direction in which the &%Object moves. Note that this is a partial function, since some &%Objects do not have sides, e.g. apples and spheres. Note too that the &%range of this &%Function is indefinite in much the way that &%ImmediateFutureFn and &%ImmediatePastFn are indefinite. Although this indefiniteness is undesirable from a theoretical standpoint, it does not have significant practical implications, since there is widespread intersubjective agreement about the most common cases.\"")
(%3ASUO-name "FrontFn"))
([FrontFn_3] of AsymmetricRelation
(%3Adocumentation "\"A &%Function that maps an &%Object to the side that generally receives the most attention or that typically faces the direction in which the &%Object moves. Note that this is a partial function, since some &%Objects do not have sides, e.g. apples and spheres. Note too that the &%range of this &%Function is indefinite in much the way that &%ImmediateFutureFn and &%ImmediatePastFn are indefinite. Although this indefiniteness is undesirable from a theoretical standpoint, it does not have significant practical implications, since there is widespread intersubjective agreement about the most common cases.\"")
(%3AidenticalTo
"Instance(FrontFn_4 of Cls(IrreflexiveRelation))"
"Instance(FrontFn_1 of Cls(SpatialRelation))"
"Instance(FrontFn of Cls(UnaryFunction))"
"Instance(FrontFn_2 of Cls(PartialValuedRelation))"
"Slot(FrontFn_5)")
(%3ASUO-name "FrontFn"))
([FrontFn_4] of IrreflexiveRelation
(%3Adocumentation "\"A &%Function that maps an &%Object to the side that generally receives the most attention or that typically faces the direction in which the &%Object moves. Note that this is a partial function, since some &%Objects do not have sides, e.g. apples and spheres. Note too that the &%range of this &%Function is indefinite in much the way that &%ImmediateFutureFn and &%ImmediatePastFn are indefinite. Although this indefiniteness is undesirable from a theoretical standpoint, it does not have significant practical implications, since there is widespread intersubjective agreement about the most common cases.\"")
(%3AidenticalTo
"Instance(FrontFn_1 of Cls(SpatialRelation))"
"Instance(FrontFn of Cls(UnaryFunction))"
"Instance(FrontFn_3 of Cls(AsymmetricRelation))"
"Instance(FrontFn_2 of Cls(PartialValuedRelation))"
"Slot(FrontFn_5)")
(%3ASUO-name "FrontFn"))
([FrontFn_5] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 110)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(FrontFn_4 of Cls(IrreflexiveRelation))"
"Instance(FrontFn_1 of Cls(SpatialRelation))"
"Instance(FrontFn of Cls(UnaryFunction))"
"Instance(FrontFn_3 of Cls(AsymmetricRelation))"
"Instance(FrontFn_2 of Cls(PartialValuedRelation))")
(%3AAXIOMS "\n(UAX-048)\n(=>\n (instance ?OBJ SelfConnectedObject)\n (side (FrontFn ?OBJ) ?OBJ))\n")
(%3ASUO-name "FrontFn"))
([FruitOrVegetable] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1669)
(%3AisInModule [OBJECTS]))
([FullyFormed] of DevelopmentalAttribute
(contraryAttribute_2 [NonFullyFormed])
(%3Adocumentation "\"The stage of an &%Organism when it has reached the end of its growth phase.\"")
(%3AAXIOMS "\n(UAX-867)\n(=>\n (attribute ?OBJ FullyFormed)\n (exists (?GROWTH)\n (and\n (instance ?GROWTH Growth)\n (experiencer ?GROWTH ?OBJ)\n (holdsDuring (BeginFn (WhenFn ?OBJ)) (attribute ?OBJ NonFullyFormed)))))\n")
(%3ASUO-name "FullyFormed"))
([Function] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 356)
(disjoint
[Predicate]
[List])
(%3AisInModule [BASE_ONTOLOGY])
(%3AidenticalTo "Instance(Function_1 of Cls(InheritableRelation))"))
([Function_1] of InheritableRelation
(%3Adocumentation "\"A &%Function is a term-forming &%Relation that maps from a n-tuple of arguments to a range and that associates this n-tuple with at most one range element. Note that the range is a &%SetOrClass, and each element of the range is an instance of the &%SetOrClass.\"")
(%3AidenticalTo "Cls(Function)"))
([FunctionQuantity] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 235)
(disjoint [ConstantQuantity])
(%3AisInModule [BASE_ONTOLOGY]))
([Funding] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1262)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-528]))
([Fungus] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1574)
(disjoint
[Alga]
[Fern]
[Moss])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-672]))
([FutureFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%TimePosition to the &%TimeInterval which it meets and which ends at &%PositiveInfinity.\"")
(%3AidenticalTo
"Slot(FutureFn_3)"
"Instance(FutureFn_2 of Cls(TotalValuedRelation))"
"Instance(FutureFn_1 of Cls(TemporalRelation))")
(%3ASUO-name "FutureFn"))
([FutureFn_1] of TemporalRelation
(%3AidenticalTo
"Instance(FutureFn of Cls(UnaryFunction))"
"Slot(FutureFn_3)"
"Instance(FutureFn_2 of Cls(TotalValuedRelation))")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%TimePosition to the &%TimeInterval which it meets and which ends at &%PositiveInfinity.\"")
(%3ASUO-name "FutureFn"))
([FutureFn_2] of TotalValuedRelation
(%3AidenticalTo
"Instance(FutureFn of Cls(UnaryFunction))"
"Slot(FutureFn_3)"
"Instance(FutureFn_1 of Cls(TemporalRelation))")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%TimePosition to the &%TimeInterval which it meets and which ends at &%PositiveInfinity.\"")
(%3ASUO-name "FutureFn"))
([FutureFn_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 914)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(FutureFn of Cls(UnaryFunction))"
"Instance(FutureFn_2 of Cls(TotalValuedRelation))"
"Instance(FutureFn_1 of Cls(TemporalRelation))")
(%3AAXIOMS "\n(UAX-355)\n(=>\n (instance ?INTERVAL TimeInterval)\n (meetsTemporally ?INTERVAL (FutureFn ?INTERVAL)))\n\n(UAX-356)\n(=>\n (instance ?INTERVAL TimeInterval)\n (equal (FutureFn ?INTERVAL) (TimeIntervalFn (EndFn ?INTERVAL) PositiveInfinity)))\n")
(%3ASUO-name "FutureFn"))
([Game] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1454)
(%3AisInModule [PROCESSES]))
([Gas] of PhysicalState
(contraryAttribute_2
[Solid]
[Liquid])
(%3Adocumentation "\"An &%Object has the &%Attribute of &%Gas if it has neither a fixed volume nor a fixed shape.\"")
(%3AAXIOMS "\n(UAX-832)\n(<=>\n (instance ?OBJ Substance)\n (exists (?ATTR)\n (and\n (instance ?ATTR PhysicalState)\n (attribute ?OBJ ?ATTR))))\n\n(UAX-833)\n(=>\n (and\n (instance ?MOTION GasMotion)\n (patient ?MOTION ?OBJ))\n (attribute ?OBJ Gas))\n")
(%3ASUO-name "Gas"))
([GasMixture] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1626)
(%3AisInModule [OBJECTS]))
([GasMotion] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1214)
(%3AisInModule [PROCESSES]))
([GeneralizedIntersectionFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that takes a &%SetOrClass of &%Classes as its single argument and returns a &%SetOrClass which is the intersection of all of the &%Classes in the original &%SetOrClass, i.e. the &%SetOrClass containing just those instances which are instances of all instances of the original &%SetOrClass.\"")
(%3AidenticalTo
"Instance(GeneralizedIntersectionFn_1 of Cls(TotalValuedRelation))"
"Slot(GeneralizedIntersectionFn_2)")
(%3ASUO-name "GeneralizedIntersectionFn"))
([GeneralizedIntersectionFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(GeneralizedIntersectionFn of Cls(UnaryFunction))"
"Slot(GeneralizedIntersectionFn_2)")
(%3Adocumentation "\"A &%UnaryFunction that takes a &%SetOrClass of &%Classes as its single argument and returns a &%SetOrClass which is the intersection of all of the &%Classes in the original &%SetOrClass, i.e. the &%SetOrClass containing just those instances which are instances of all instances of the original &%SetOrClass.\"")
(%3ASUO-name "GeneralizedIntersectionFn"))
([GeneralizedIntersectionFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 569)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3ADomain1Type Class)
(%3AidenticalTo
"Instance(GeneralizedIntersectionFn of Cls(UnaryFunction))"
"Instance(GeneralizedIntersectionFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "GeneralizedIntersectionFn"))
([GeneralizedUnionFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that takes a &%SetOrClass of &%Classes as its single argument and returns a &%SetOrClass which is the merge of all of the &%Classes in the original &%SetOrClass, i.e. the &%SetOrClass containing just those instances which are instances of an instance of the original &%SetOrClass.\"")
(%3AidenticalTo
"Instance(GeneralizedUnionFn_1 of Cls(TotalValuedRelation))"
"Slot(GeneralizedUnionFn_2)")
(%3ASUO-name "GeneralizedUnionFn"))
([GeneralizedUnionFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(GeneralizedUnionFn of Cls(UnaryFunction))"
"Slot(GeneralizedUnionFn_2)")
(%3Adocumentation "\"A &%UnaryFunction that takes a &%SetOrClass of &%Classes as its single argument and returns a &%SetOrClass which is the merge of all of the &%Classes in the original &%SetOrClass, i.e. the &%SetOrClass containing just those instances which are instances of an instance of the original &%SetOrClass.\"")
(%3ASUO-name "GeneralizedUnionFn"))
([GeneralizedUnionFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 568)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3ADomain1Type Class)
(%3AidenticalTo
"Instance(GeneralizedUnionFn of Cls(UnaryFunction))"
"Instance(GeneralizedUnionFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "GeneralizedUnionFn"))
([GeographicArea] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1508)
(disjoint [AstronomicalBody])
(partition
[WaterArea]
[LandArea])
(%3AisInModule [OBJECTS]))
([geographicSubregion] of BinaryPredicate
(%3Adocumentation "\"(&%geographicSubregion ?PART ?WHOLE) means that the &%GeographicArea ?PART is part of the &%GeographicArea ?WHOLE.\"")
(%3AidenticalTo
"Instance(geographicSubregion_1 of Cls(TransitiveRelation))"
"Instance(geographicSubregion_2 of Cls(AsymmetricRelation))"
"Slot(geographicSubregion_3)")
(%3ASUO-name "geographicSubregion"))
([geographicSubregion_1] of TransitiveRelation
(%3Adocumentation "\"(&%geographicSubregion ?PART ?WHOLE) means that the &%GeographicArea ?PART is part of the &%GeographicArea ?WHOLE.\"")
(%3AidenticalTo
"Instance(geographicSubregion of Cls(BinaryPredicate))"
"Instance(geographicSubregion_2 of Cls(AsymmetricRelation))"
"Slot(geographicSubregion_3)")
(%3ASUO-name "geographicSubregion"))
([geographicSubregion_2] of AsymmetricRelation
(%3Adocumentation "\"(&%geographicSubregion ?PART ?WHOLE) means that the &%GeographicArea ?PART is part of the &%GeographicArea ?WHOLE.\"")
(%3AidenticalTo
"Instance(geographicSubregion of Cls(BinaryPredicate))"
"Instance(geographicSubregion_1 of Cls(TransitiveRelation))"
"Slot(geographicSubregion_3)")
(%3ASUO-name "geographicSubregion"))
([geographicSubregion_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1509)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(geographicSubregion of Cls(BinaryPredicate))"
"Instance(geographicSubregion_1 of Cls(TransitiveRelation))"
"Instance(geographicSubregion_2 of Cls(AsymmetricRelation))")
(%3ASUO-name "geographicSubregion"))
([GeologicalProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1212)
(disjoint [IntentionalProcess])
(%3AisInModule [PROCESSES]))
([geometricDistance] of TernaryPredicate
(%3AidenticalTo
"Instance(geometricDistance_1 of Cls(SingleValuedRelation))"
"Instance(geometricDistance_2 of Cls(TotalValuedRelation))"
"Slot(geometricDistance_3)")
(%3Adocumentation "\"(&%geometricDistance ?POINT1 ?POINT2 ?LENGTH) means that ?LENGTH is the distance between the two &%GeometricPoints ?POINT1 and ?POINT2.\"")
(%3ASUO-name "geometricDistance"))
([geometricDistance_1] of SingleValuedRelation
(%3AidenticalTo
"Instance(geometricDistance of Cls(TernaryPredicate))"
"Instance(geometricDistance_2 of Cls(TotalValuedRelation))"
"Slot(geometricDistance_3)")
(%3Adocumentation "\"(&%geometricDistance ?POINT1 ?POINT2 ?LENGTH) means that ?LENGTH is the distance between the two &%GeometricPoints ?POINT1 and ?POINT2.\"")
(%3ASUO-name "geometricDistance"))
([geometricDistance_2] of TotalValuedRelation
(%3AidenticalTo
"Instance(geometricDistance_1 of Cls(SingleValuedRelation))"
"Instance(geometricDistance of Cls(TernaryPredicate))"
"Slot(geometricDistance_3)")
(%3Adocumentation "\"(&%geometricDistance ?POINT1 ?POINT2 ?LENGTH) means that ?LENGTH is the distance between the two &%GeometricPoints ?POINT1 and ?POINT2.\"")
(%3ASUO-name "geometricDistance"))
([geometricDistance_3] of %3ATernarySlot
(%3ALOAD-SEQUENCE 2040)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [QUALITIES])
(%3ADomain2Class GeometricPoint)
(%3AidenticalTo
"Instance(geometricDistance_1 of Cls(SingleValuedRelation))"
"Instance(geometricDistance of Cls(TernaryPredicate))"
"Instance(geometricDistance_2 of Cls(TotalValuedRelation))")
(%3AAXIOMS "\n(UAX-850)\n(=>\n (geometricDistance ?POINT1 ?POINT2 ?LENGTH)\n (geometricDistance ?POINT2 ?POINT1 ?LENGTH))\n")
(%3ASUO-name "geometricDistance"))
([GeometricFigure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2008)
(partition
[GeometricPoint]
[OneDimensionalFigure]
[TwoDimensionalFigure]
[ThreeDimensionalFigure])
(%3AisInModule [QUALITIES]))
([geometricPart] of BinaryPredicate
(%3Adocumentation "\"(&%geometricPart ?PART ?WHOLE) means that the &%GeometricFigure ?PART is part of the &%GeometricFigure ?WHOLE.\"")
(%3AidenticalTo
"Instance(geometricPart_1 of Cls(PartialOrderingRelation))"
"Slot(geometricPart_2)")
(%3ASUO-name "geometricPart"))
([geometricPart_1] of PartialOrderingRelation
(%3Adocumentation "\"(&%geometricPart ?PART ?WHOLE) means that the &%GeometricFigure ?PART is part of the &%GeometricFigure ?WHOLE.\"")
(%3AidenticalTo
"Instance(geometricPart of Cls(BinaryPredicate))"
"Slot(geometricPart_2)")
(%3ASUO-name "geometricPart"))
([geometricPart_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 2030)
(%3AisInModule [QUALITIES])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(geometricPart_1 of Cls(PartialOrderingRelation))"
"Instance(geometricPart of Cls(BinaryPredicate))")
(%3ASUO-name "geometricPart"))
([GeometricPoint] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2009)
(disjoint
[OneDimensionalFigure]
[TwoDimensionalFigure]
[ThreeDimensionalFigure])
(%3AisInModule [QUALITIES]))
([GeopoliticalArea] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1510)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS
[UAX-646]
[UAX-647]
[UAX-648]
[UAX-649]))
([geopoliticalSubdivision] of AsymmetricRelation
(%3Adocumentation "\"(&%geopoliticalSubdivision ?AREA1 ?AREA2) means that ?AREA1 is any geopolitical part of ?AREA2; that is, ?AREA1 is an integral &%geographicSubregion of ?AREA2 (not a &%DependencyOrSpecialSovereigntyArea), having its own associated &%GovernmentOrganization which is subordinated to or constrained by the government of ?AREA2. Cf. &%dependentGeopoliticalArea.\"")
(%3AidenticalTo
"Instance(geopoliticalSubdivision_1 of Cls(TransitiveRelation))"
"Slot(geopoliticalSubdivision_2)")
(%3ASUO-name "geopoliticalSubdivision"))
([geopoliticalSubdivision_1] of TransitiveRelation
(%3Adocumentation "\"(&%geopoliticalSubdivision ?AREA1 ?AREA2) means that ?AREA1 is any geopolitical part of ?AREA2; that is, ?AREA1 is an integral &%geographicSubregion of ?AREA2 (not a &%DependencyOrSpecialSovereigntyArea), having its own associated &%GovernmentOrganization which is subordinated to or constrained by the government of ?AREA2. Cf. &%dependentGeopoliticalArea.\"")
(%3AidenticalTo
"Slot(geopoliticalSubdivision_2)"
"Instance(geopoliticalSubdivision of Cls(AsymmetricRelation))")
(%3ASUO-name "geopoliticalSubdivision"))
([geopoliticalSubdivision_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1515)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(geopoliticalSubdivision_1 of Cls(TransitiveRelation))"
"Instance(geopoliticalSubdivision of Cls(AsymmetricRelation))")
(%3AAXIOMS "\n(UAX-650)\n(=>\n (geopoliticalSubdivision ?SUB ?AREA)\n (not (instance ?SUB Nation)))\n")
(%3ASUO-name "geopoliticalSubdivision"))
([German] of %3ANaturalLanguage)
([Gesture] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1416)
(disjoint [ExpressingInLanguage])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-604]))
([Getting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1270)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-532]))
([GigaFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to 1,000,000,000 units of the original &%UnitOfMeasure. For example, (&%GigaFn &%Hertz) is 1,000,000,000 &%Hertz.\"")
(%3AidenticalTo
"Slot(GigaFn_2)"
"Instance(GigaFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "GigaFn"))
([GigaFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(GigaFn of Cls(UnaryFunction))"
"Slot(GigaFn_2)")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to 1,000,000,000 units of the original &%UnitOfMeasure. For example, (&%GigaFn &%Hertz) is 1,000,000,000 &%Hertz.\"")
(%3ASUO-name "GigaFn"))
([GigaFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 662)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(GigaFn of Cls(UnaryFunction))"
"Instance(GigaFn_1 of Cls(TotalValuedRelation))")
(%3AAXIOMS "\n(UAX-269)\n(=>\n (instance ?UNIT UnitOfMeasure)\n (equal (GigaFn ?UNIT) (MeasureFn 1000000000 ?UNIT)))\n")
(%3ASUO-name "GigaFn"))
([Giving] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1259)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-526]
[UAX-527]))
([GivingBack] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1268)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-531]))
([Gland] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1681)
(%3AisInModule [OBJECTS]))
([Government] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1848)
(%3AisInModule [OBJECTS]))
([GovernmentFn] of UnaryFunction
(%3Adocumentation "\"(&%GovernmentFn ?AREA) denotes the &%Government of the &%GeopoliticalArea ?AREA. For example, (&%GovernmentFn &%UnitedStates) denotes the Federal-level government of the United States; (&%GovernmentFn &%PuertoRico) denotes the government of the Commonwealth of Puerto Rico.\"")
(%3AidenticalTo "Slot(GovernmentFn_1)")
(%3ASUO-name "GovernmentFn"))
([GovernmentFn_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1849)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(GovernmentFn of Cls(UnaryFunction))")
(%3ASUO-name "GovernmentFn"))
([GovernmentOrganization] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1846)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-782]))
([Grabbing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1241)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-517]))
([Graduation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1166)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-489]))
([Gram] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 688)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Gram_1 of Cls(SystemeInternationalUnit))"))
([Gram_1] of SystemeInternationalUnit
(%3Adocumentation "Submultiple of kilogram. Symbol: g. 1 kilogram = 1000 &%Grams.")
(%3AidenticalTo "Cls(Gram)"))
([Graph] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 586)
(disjoint
[Quantity]
[Attribute]
[SetOrClass]
[Relation]
[Proposition]
[GraphElement])
(%3AisInModule [GRAPH_THEORY])
(%3ASLOT-CONSTRAINTS
[UAX-238]
[UAX-239]))
([GRAPH_THEORY] of %3AModule
(%3AStartingBlock 584)
(%3AinputFile "testin.kif")
(%3ASUO-name "GRAPH_THEORY"))
([GraphArc] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 606)
(disjoint [GraphNode])
(%3AisInModule [GRAPH_THEORY])
(%3ASLOT-CONSTRAINTS [UAX-249]))
([GraphCircuit] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 596)
(%3AisInModule [GRAPH_THEORY])
(%3ASLOT-CONSTRAINTS [UAX-244]))
([GraphElement] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 602)
(disjoint
[Quantity]
[Attribute]
[SetOrClass]
[Relation]
[Proposition]
[Graph])
(partition
[GraphNode]
[GraphArc])
(%3AisInModule [GRAPH_THEORY])
(%3ASLOT-CONSTRAINTS [UAX-247]))
([GraphLoop] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 608)
(%3AisInModule [GRAPH_THEORY])
(%3ASLOT-CONSTRAINTS
[UAX-250]
[UAX-251]))
([GraphNode] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 604)
(disjoint [GraphArc])
(%3AisInModule [GRAPH_THEORY])
(%3ASLOT-CONSTRAINTS [UAX-248]))
([graphPart] of BinaryPredicate
(%3Adocumentation "\"A basic relation for &%Graphs and their parts. (&%graphPart ?PART ?GRAPH) means that ?PART is a &%GraphArc or &%GraphNode of the &%Graph ?GRAPH.\"")
(%3AidenticalTo
"Instance(graphPart_1 of Cls(AsymmetricRelation))"
"Instance(graphPart_2 of Cls(IrreflexiveRelation))"
"Slot(graphPart_3)")
(%3ASUO-name "graphPart"))
([graphPart_1] of AsymmetricRelation
(%3Adocumentation "\"A basic relation for &%Graphs and their parts. (&%graphPart ?PART ?GRAPH) means that ?PART is a &%GraphArc or &%GraphNode of the &%Graph ?GRAPH.\"")
(%3AidenticalTo
"Instance(graphPart of Cls(BinaryPredicate))"
"Instance(graphPart_2 of Cls(IrreflexiveRelation))"
"Slot(graphPart_3)")
(%3ASUO-name "graphPart"))
([graphPart_2] of IrreflexiveRelation
(%3Adocumentation "\"A basic relation for &%Graphs and their parts. (&%graphPart ?PART ?GRAPH) means that ?PART is a &%GraphArc or &%GraphNode of the &%Graph ?GRAPH.\"")
(%3AidenticalTo
"Instance(graphPart_1 of Cls(AsymmetricRelation))"
"Instance(graphPart of Cls(BinaryPredicate))"
"Slot(graphPart_3)")
(%3ASUO-name "graphPart"))
([graphPart_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 613)
(%3AisInModule [GRAPH_THEORY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(graphPart_1 of Cls(AsymmetricRelation))"
"Instance(graphPart of Cls(BinaryPredicate))"
"Instance(graphPart_2 of Cls(IrreflexiveRelation))")
(%3ASUO-name "graphPart"))
([GraphPath] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 593)
(%3AisInModule [GRAPH_THEORY])
(%3ASLOT-CONSTRAINTS
[UAX-242]
[UAX-243]))
([GraphPathFn] of BinaryFunction
(%3AidenticalTo
"Slot(GraphPathFn_2)"
"Instance(GraphPathFn_1 of Cls(TotalValuedRelation))")
(%3Adocumentation "\"A &%BinaryFunction that maps two &%GraphNodes to the &%Class of &%GraphPaths between those two nodes. Note that the two &%GraphNodes must belong to the same &%Graph.\"")
(%3ASUO-name "GraphPathFn"))
([GraphPathFn_1] of TotalValuedRelation
(%3AidenticalTo
"Slot(GraphPathFn_2)"
"Instance(GraphPathFn of Cls(BinaryFunction))")
(%3Adocumentation "\"A &%BinaryFunction that maps two &%GraphNodes to the &%Class of &%GraphPaths between those two nodes. Note that the two &%GraphNodes must belong to the same &%Graph.\"")
(%3ASUO-name "GraphPathFn"))
([GraphPathFn_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 631)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [GRAPH_THEORY])
(%3ADomain2Class GraphNode)
(%3AidenticalTo
"Instance(GraphPathFn_1 of Cls(TotalValuedRelation))"
"Instance(GraphPathFn of Cls(BinaryFunction))")
(%3AAXIOMS "\n(UAX-260)\n(=>\n (and\n (graphPart ?PATH ?GRAPH)\n (not (instance ?GRAPH DirectedGraph)))\n (<=>\n (equal (GraphPathFn ?NODE1 ?NODE2) ?PATH)\n (equal (GraphPathFn ?NODE2 ?NODE1) ?PATH)))\n")
(%3ASUO-name "GraphPathFn"))
([grasps] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1240)
(%3AisInModule [PROCESSES])
(%3ADomain1Type Instance)
(%3ASUO-name "grasps"))
([Gray] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 745)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Gray_1 of Cls(SystemeInternationalUnit))"))
([Gray_1] of SystemeInternationalUnit
(%3Adocumentation "SI absorbed dose measure. Symbol: Gy. It measures the dose of radiation absorbed in living tissue. It is equal approximately to the absorbed dose delivered when the energy per unit mass imparted to matter by ionizing radiation is 1 &%Joule per kilogram. &%Gray = J/kg = m^2*s^(-2).")
(%3AidenticalTo "Cls(Gray)"))
([greaterThan] of BinaryPredicate
(%3Adocumentation "\"(&%greaterThan ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is greater than the &%Quantity ?NUMBER2.\"")
(%3AidenticalTo
"Instance(greaterThan_1 of Cls(TransitiveRelation))"
"Instance(greaterThan_3 of Cls(RelationExtendedToQuantities))"
"Instance(greaterThan_2 of Cls(IrreflexiveRelation))"
"Slot(greaterThan_4)")
(%3ASUO-name "greaterThan"))
([greaterThan_1] of TransitiveRelation
(%3Adocumentation "\"(&%greaterThan ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is greater than the &%Quantity ?NUMBER2.\"")
(%3AidenticalTo
"Instance(greaterThan of Cls(BinaryPredicate))"
"Instance(greaterThan_3 of Cls(RelationExtendedToQuantities))"
"Instance(greaterThan_2 of Cls(IrreflexiveRelation))"
"Slot(greaterThan_4)")
(%3ASUO-name "greaterThan"))
([greaterThan_2] of IrreflexiveRelation
(%3Adocumentation "\"(&%greaterThan ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is greater than the &%Quantity ?NUMBER2.\"")
(%3AidenticalTo
"Instance(greaterThan of Cls(BinaryPredicate))"
"Instance(greaterThan_1 of Cls(TransitiveRelation))"
"Instance(greaterThan_3 of Cls(RelationExtendedToQuantities))"
"Slot(greaterThan_4)")
(%3ASUO-name "greaterThan"))
([greaterThan_3] of RelationExtendedToQuantities
(%3AidenticalTo
"Instance(greaterThan of Cls(BinaryPredicate))"
"Instance(greaterThan_1 of Cls(TransitiveRelation))"
"Instance(greaterThan_2 of Cls(IrreflexiveRelation))"
"Slot(greaterThan_4)")
(%3Adocumentation "\"(&%greaterThan ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is greater than the &%Quantity ?NUMBER2.\"")
(%3ASUO-name "greaterThan"))
([greaterThan_4] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 202)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(greaterThan of Cls(BinaryPredicate))"
"Instance(greaterThan_1 of Cls(TransitiveRelation))"
"Instance(greaterThan_3 of Cls(RelationExtendedToQuantities))"
"Instance(greaterThan_2 of Cls(IrreflexiveRelation))")
(%3ASUO-name "greaterThan"))
([greaterThanOrEqualTo] of BinaryPredicate
(%3Adocumentation "\"(&%greaterThanOrEqualTo ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is greater than the &%Quantity ?NUMBER2.\"")
(%3AidenticalTo
"Instance(greaterThanOrEqualTo_1 of Cls(PartialOrderingRelation))"
"Instance(greaterThanOrEqualTo_2 of Cls(RelationExtendedToQuantities))"
"Slot(greaterThanOrEqualTo_3)")
(%3ASUO-name "greaterThanOrEqualTo"))
([greaterThanOrEqualTo_1] of PartialOrderingRelation
(%3Adocumentation "\"(&%greaterThanOrEqualTo ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is greater than the &%Quantity ?NUMBER2.\"")
(%3AidenticalTo
"Instance(greaterThanOrEqualTo_2 of Cls(RelationExtendedToQuantities))"
"Slot(greaterThanOrEqualTo_3)"
"Instance(greaterThanOrEqualTo of Cls(BinaryPredicate))")
(%3ASUO-name "greaterThanOrEqualTo"))
([greaterThanOrEqualTo_2] of RelationExtendedToQuantities
(%3AidenticalTo
"Instance(greaterThanOrEqualTo_1 of Cls(PartialOrderingRelation))"
"Slot(greaterThanOrEqualTo_3)"
"Instance(greaterThanOrEqualTo of Cls(BinaryPredicate))")
(%3Adocumentation "\"(&%greaterThanOrEqualTo ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is greater than the &%Quantity ?NUMBER2.\"")
(%3ASUO-name "greaterThanOrEqualTo"))
([greaterThanOrEqualTo_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 205)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(greaterThanOrEqualTo_1 of Cls(PartialOrderingRelation))"
"Instance(greaterThanOrEqualTo_2 of Cls(RelationExtendedToQuantities))"
"Instance(greaterThanOrEqualTo of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-076)\n(<=>\n (greaterThanOrEqualTo ?NUMBER1 ?NUMBER2)\n (or\n (equal ?NUMBER1 ?NUMBER2)\n (greaterThan ?NUMBER1 ?NUMBER2)))\n")
(%3ASUO-name "greaterThanOrEqualTo"))
([GreatestCommonDivisorFn] of Function
(%3Adocumentation "\"(&%GreatestCommonDivisorFn ?NUMBER1 ?NUMBER2 ... ?NUMBER) returns the greatest common divisor of ?NUMBER1 through ?NUMBER.\"")
(%3AidenticalTo
"Instance(GreatestCommonDivisorFn_2 of Cls(PartialValuedRelation))"
"Instance(GreatestCommonDivisorFn_1 of Cls(VariableArityRelation))"
"Slot(GreatestCommonDivisorFn_3)")
(%3ASUO-name "GreatestCommonDivisorFn"))
([GreatestCommonDivisorFn_1] of VariableArityRelation
(%3AidenticalTo
"Instance(GreatestCommonDivisorFn_2 of Cls(PartialValuedRelation))"
"Instance(GreatestCommonDivisorFn of Cls(Function))"
"Slot(GreatestCommonDivisorFn_3)")
(%3Adocumentation "\"(&%GreatestCommonDivisorFn ?NUMBER1 ?NUMBER2 ... ?NUMBER) returns the greatest common divisor of ?NUMBER1 through ?NUMBER.\"")
(%3ASUO-name "GreatestCommonDivisorFn"))
([GreatestCommonDivisorFn_2] of PartialValuedRelation
(%3AidenticalTo
"Instance(GreatestCommonDivisorFn_1 of Cls(VariableArityRelation))"
"Instance(GreatestCommonDivisorFn of Cls(Function))"
"Slot(GreatestCommonDivisorFn_3)")
(%3Adocumentation "\"(&%GreatestCommonDivisorFn ?NUMBER1 ?NUMBER2 ... ?NUMBER) returns the greatest common divisor of ?NUMBER1 through ?NUMBER.\"")
(%3ASUO-name "GreatestCommonDivisorFn"))
([GreatestCommonDivisorFn_3] of %3AVariableAritySlot
(%3ALOAD-SEQUENCE 500)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(GreatestCommonDivisorFn_2 of Cls(PartialValuedRelation))"
"Instance(GreatestCommonDivisorFn_1 of Cls(VariableArityRelation))"
"Instance(GreatestCommonDivisorFn of Cls(Function))")
(%3AAXIOMS "\n(UAX-198)\n(=>\n (equal (GreatestCommonDivisorFn @ROW) ?NUMBER)\n (forall (?ELEMENT)\n (=>\n (inList ?ELEMENT (ListFn @ROW))\n (equal (RemainderFn ?ELEMENT ?NUMBER) 0))))\n\n(UAX-199)\n(=>\n (equal (GreatestCommonDivisorFn @ROW) ?NUMBER)\n (not (exists (?GREATER)\n (and\n (greaterThan ?GREATER ?NUMBER)\n (forall (?ELEMENT)\n (=>\n (inList ?ELEMENT (ListFn @ROW))\n (equal (RemainderFn ?ELEMENT ?GREATER) 0)))))))\n")
(%3ASUO-name "GreatestCommonDivisorFn"))
([Group] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1817)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-769]))
([GroupOfPeople] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1819)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-770]))
([Growth] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1131)
(%3AisInModule [PROCESSES]))
([Guiding] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1251)
(%3AisInModule [PROCESSES]))
([hasField] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core])
(%3AidenticalTo
"Slot(hasField_6)"
"Slot(hasField_3)"
"Slot(hasField_2)"
"Slot(hasField_7)"
"Slot(hasField_5)"
"Slot(hasField_4)")
(%3ASUO-name "hasField"))
([hasField_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core])
(%3AidenticalTo
"Slot(hasField_6)"
"Slot(hasField_3)"
"Slot(hasField_7)"
"Slot(hasField)"
"Slot(hasField_5)"
"Slot(hasField_4)")
(%3ASUO-name "hasField"))
([hasField_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core])
(%3AidenticalTo
"Slot(hasField_6)"
"Slot(hasField_2)"
"Slot(hasField_7)"
"Slot(hasField)"
"Slot(hasField_5)"
"Slot(hasField_4)")
(%3ASUO-name "hasField"))
([hasField_4] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core])
(%3AidenticalTo
"Slot(hasField_6)"
"Slot(hasField_3)"
"Slot(hasField_2)"
"Slot(hasField_7)"
"Slot(hasField)"
"Slot(hasField_5)")
(%3ASUO-name "hasField"))
([hasField_5] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core])
(%3AidenticalTo
"Slot(hasField_6)"
"Slot(hasField_3)"
"Slot(hasField_2)"
"Slot(hasField_7)"
"Slot(hasField)"
"Slot(hasField_4)")
(%3ASUO-name "hasField"))
([hasField_6] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core])
(%3AidenticalTo
"Slot(hasField_3)"
"Slot(hasField_2)"
"Slot(hasField_7)"
"Slot(hasField)"
"Slot(hasField_5)"
"Slot(hasField_4)")
(%3ASUO-name "hasField"))
([hasField_7] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core])
(%3AidenticalTo
"Slot(hasField_6)"
"Slot(hasField_3)"
"Slot(hasField_2)"
"Slot(hasField)"
"Slot(hasField_5)"
"Slot(hasField_4)")
(%3ASUO-name "hasField"))
([hasPurpose] of BinaryPredicate
(%3Adocumentation "\"This &%Predicate expresses the concept of a conventional goal, i.e. a goal with a neutralized agent's intention. Accordingly, (&%hasPurpose ?THING ?FORMULA) means that the instance of &%Physical ?THING has, as its purpose, the &%Proposition expressed by ?FORMULA. Note that there is an important difference in meaning between the &%Predicates &%hasPurpose and &%result. Although the second argument of the latter can satisfy the second argument of the former, a conventional goal is an expected and desired outcome, while a result may be neither expected nor desired. For example, a machine process may have outcomes but no goals, aimless wandering may have an outcome but no goal; a learning process may have goals with no outcomes, and so on.\"")
(%3AidenticalTo
"Instance(hasPurpose_1 of Cls(AsymmetricRelation))"
"Slot(hasPurpose_2)")
(%3ASUO-name "hasPurpose"))
([hasPurpose_1] of AsymmetricRelation
(%3Adocumentation "\"This &%Predicate expresses the concept of a conventional goal, i.e. a goal with a neutralized agent's intention. Accordingly, (&%hasPurpose ?THING ?FORMULA) means that the instance of &%Physical ?THING has, as its purpose, the &%Proposition expressed by ?FORMULA. Note that there is an important difference in meaning between the &%Predicates &%hasPurpose and &%result. Although the second argument of the latter can satisfy the second argument of the former, a conventional goal is an expected and desired outcome, while a result may be neither expected nor desired. For example, a machine process may have outcomes but no goals, aimless wandering may have an outcome but no goal; a learning process may have goals with no outcomes, and so on.\"")
(%3AidenticalTo
"Instance(hasPurpose of Cls(BinaryPredicate))"
"Slot(hasPurpose_2)")
(%3ASUO-name "hasPurpose"))
([hasPurpose_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 418)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(hasPurpose of Cls(BinaryPredicate))"
"Instance(hasPurpose_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "hasPurpose"))
([hasPurposeForAgent] of TernaryPredicate
(%3AidenticalTo "Slot(hasPurposeForAgent_1)")
(%3Adocumentation "\"Expresses a cognitive attitude of an agent with respect to a particular instance of Physical. More precisely, (&%hasPurposeForAgent ?THING ?FORMULA ?AGENT) means that the purpose of ?THING for ?AGENT is the proposition expressed by ?FORMULA. Very complex issues are involved here. In particular, the rules of inference of the first order predicate calculus are not truth-preserving for the second argument position of this &%Predicate.\"")
(%3ASUO-name "hasPurposeForAgent"))
([hasPurposeForAgent_1] of %3ATernarySlot
(%3ALOAD-SEQUENCE 419)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain2Class Formula)
(%3AidenticalTo "Instance(hasPurposeForAgent of Cls(TernaryPredicate))")
(%3AAXIOMS "\n(UAX-165)\n(=>\n (hasPurpose ?THING ?PURPOSE)\n (exists (?AGENT)\n (hasPurposeForAgent ?THING ?PURPOSE ?AGENT)))\n")
(%3ASUO-name "hasPurposeForAgent"))
([hasSkill] of BinaryPredicate
(%3Adocumentation "\"Similar to the &%capability &%Predicate with the additional restriction that the ability be practised/ demonstrated to some measurable degree.\"")
(%3AidenticalTo
"Instance(hasSkill_1 of Cls(AsymmetricRelation))"
"Slot(hasSkill_2)")
(%3ASUO-name "hasSkill"))
([hasSkill_1] of AsymmetricRelation
(%3Adocumentation "\"Similar to the &%capability &%Predicate with the additional restriction that the ability be practised/ demonstrated to some measurable degree.\"")
(%3AidenticalTo
"Slot(hasSkill_2)"
"Instance(hasSkill of Cls(BinaryPredicate))")
(%3ASUO-name "hasSkill"))
([hasSkill_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 421)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Class)
(%3AidenticalTo
"Instance(hasSkill_1 of Cls(AsymmetricRelation))"
"Instance(hasSkill of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-166)\n(=>\n (hasSkill ?PROC ?AGENT)\n (capability ?PROC agent ?AGENT))\n")
(%3ASUO-name "hasSkill"))
([Hearing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1476)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-633]))
([Heating] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1188)
(disjoint [Cooling])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-497]))
([height] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1046)
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain1Type Instance)
(%3AAXIOMS "\n(UAX-433)\n(=>\n (and\n (height ?OBJECT ?HEIGHT)\n (top ?TOP ?OBJECT)\n (bottom ?BOTTOM ?OBJECT))\n (distance ?TOP ?BOTTOM ?HEIGHT))\n")
(%3ASUO-name "height"))
([Henry] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 733)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Henry_1 of Cls(SystemeInternationalUnit))"))
([Henry_1] of SystemeInternationalUnit
(%3Adocumentation "SI inductance measure. Symbol: H. One &%Henry is equivalent to one &%Volt divided by one &%Ampere per &%SecondDuration. If a current changing at the rate of one &%Ampere per &%SecondDuration induces an electromotive force of one &%Volt, the circuit has an inductance of one &%Henry. &%Henry = Wb/A = m^2*kg*s^(-2)*A^(-2).")
(%3AidenticalTo "Cls(Henry)"))
([Hertz] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 708)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Hertz_1 of Cls(SystemeInternationalUnit))"))
([Hertz_1] of SystemeInternationalUnit
(%3Adocumentation "SI frequency measure. Symbol: Hz. It is the number of cycles per second. &%Hertz = s^(-1). Note that &%Hertz does not have a conversion function.")
(%3AidenticalTo "Cls(Hertz)"))
([Hiring] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1170)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-491]))
([holds] of Predicate
(%3AidenticalTo
"Slot(holds_2)"
"Instance(holds_1 of Cls(VariableArityRelation))")
(%3Adocumentation "\"(holds P N1 ... NK) is true just in case the tuple of objects denoted by N1,..., NK is an element of the &%Relation P.\"")
(%3ASUO-name "holds"))
([holds_1] of VariableArityRelation
(%3AidenticalTo
"Instance(holds of Cls(Predicate))"
"Slot(holds_2)")
(%3Adocumentation "\"(holds P N1 ... NK) is true just in case the tuple of objects denoted by N1,..., NK is an element of the &%Relation P.\"")
(%3ASUO-name "holds"))
([holds_2] of %3AVariableAritySlot
(%3ALOAD-SEQUENCE 94)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(holds of Cls(Predicate))"
"Instance(holds_1 of Cls(VariableArityRelation))")
(%3AAXIOMS "\n(UAX-044)\n(=>\n (instance ?REL Function)\n (<=>\n (equal (AssignmentFn ?REL @ROW) ?INST)\n (holds ?REL @ROW ?INST)))\n")
(%3ASUO-name "holds"))
([holdsDuring] of BinaryPredicate
(%3Adocumentation "\"(&%holdsDuring ?TIME ?FORMULA) means that the proposition denoted by ?FORMULA is true in the time frame ?TIME. Note that this implies that ?FORMULA is true at every &%TimePoint which is a &%temporalPart of ?TIME.\"")
(%3AidenticalTo
"Instance(holdsDuring_1 of Cls(AsymmetricRelation))"
"Slot(holdsDuring_2)")
(%3ASUO-name "holdsDuring"))
([holdsDuring_1] of AsymmetricRelation
(%3Adocumentation "\"(&%holdsDuring ?TIME ?FORMULA) means that the proposition denoted by ?FORMULA is true in the time frame ?TIME. Note that this implies that ?FORMULA is true at every &%TimePoint which is a &%temporalPart of ?TIME.\"")
(%3AidenticalTo
"Slot(holdsDuring_2)"
"Instance(holdsDuring of Cls(BinaryPredicate))")
(%3ASUO-name "holdsDuring"))
([holdsDuring_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 411)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(holdsDuring_1 of Cls(AsymmetricRelation))"
"Instance(holdsDuring of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-161)\n(=>\n (and\n (holdsDuring ?TIME ?SITUATION1)\n (entails ?SITUATION1 ?SITUATION2))\n (holdsDuring ?TIME ?SITUATION2))\n\n(UAX-162)\n(=>\n (holdsDuring ?TIME (not ?SITUATION))\n (not (holdsDuring ?TIME ?SITUATION)))\n")
(%3ASUO-name "holdsDuring"))
([holdsObligation] of BinaryPredicate
(%3Adocumentation "\"Expresses a relationship between a &%Formula and a &%CognitiveAgent whereby the &%CognitiveAgent has the obligation to bring it about that the &%Formula is true.\"")
(%3AidenticalTo
"Slot(holdsObligation_2)"
"Instance(holdsObligation_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "holdsObligation"))
([holdsObligation_1] of AsymmetricRelation
(%3Adocumentation "\"Expresses a relationship between a &%Formula and a &%CognitiveAgent whereby the &%CognitiveAgent has the obligation to bring it about that the &%Formula is true.\"")
(%3AidenticalTo
"Instance(holdsObligation of Cls(BinaryPredicate))"
"Slot(holdsObligation_2)")
(%3ASUO-name "holdsObligation"))
([holdsObligation_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 426)
(relatedInternalConcept "holdsRight")
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(holdsObligation of Cls(BinaryPredicate))"
"Instance(holdsObligation_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "holdsObligation"))
([holdsRight] of BinaryPredicate
(%3Adocumentation "\"Expresses a relationship between a &%Formula and a &%CognitiveAgent whereby the &%CognitiveAgent has the right to bring it about that the &%Formula is true.\"")
(%3AidenticalTo
"Slot(holdsRight_2)"
"Instance(holdsRight_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "holdsRight"))
([holdsRight_1] of AsymmetricRelation
(%3Adocumentation "\"Expresses a relationship between a &%Formula and a &%CognitiveAgent whereby the &%CognitiveAgent has the right to bring it about that the &%Formula is true.\"")
(%3AidenticalTo
"Slot(holdsRight_2)"
"Instance(holdsRight of Cls(BinaryPredicate))")
(%3ASUO-name "holdsRight"))
([holdsRight_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 423)
(relatedInternalConcept "holdsObligation")
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(holdsRight of Cls(BinaryPredicate))"
"Instance(holdsRight_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "holdsRight"))
([hole] of BinaryPredicate
(%3Adocumentation "\"(&%hole ?HOLE ?OBJ) means that ?HOLE is a &%Hole in ?OBJ. A &%Hole is a fillable body located at the &%surface an &%Object.\"")
(%3AidenticalTo
"Slot(hole_3)"
"Instance(hole_1 of Cls(SpatialRelation))"
"Instance(hole_2 of Cls(AsymmetricRelation))")
(%3ASUO-name "hole"))
([Hole] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1056)
(%3AisInModule [MEREOTOPOLOGY])
(%3ASLOT-CONSTRAINTS
[UAX-437]
[UAX-438]
[UAX-439]
[UAX-440]
[UAX-441]
[UAX-442]
[UAX-443]
[UAX-444]))
([hole_1] of SpatialRelation
(%3AidenticalTo
"Slot(hole_3)"
"Instance(hole of Cls(BinaryPredicate))"
"Instance(hole_2 of Cls(AsymmetricRelation))")
(%3Adocumentation "\"(&%hole ?HOLE ?OBJ) means that ?HOLE is a &%Hole in ?OBJ. A &%Hole is a fillable body located at the &%surface an &%Object.\"")
(%3ASUO-name "hole"))
([hole_2] of AsymmetricRelation
(%3Adocumentation "\"(&%hole ?HOLE ?OBJ) means that ?HOLE is a &%Hole in ?OBJ. A &%Hole is a fillable body located at the &%surface an &%Object.\"")
(%3AidenticalTo
"Slot(hole_3)"
"Instance(hole of Cls(BinaryPredicate))"
"Instance(hole_1 of Cls(SpatialRelation))")
(%3ASUO-name "hole"))
([hole_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1055)
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(hole of Cls(BinaryPredicate))"
"Instance(hole_1 of Cls(SpatialRelation))"
"Instance(hole_2 of Cls(AsymmetricRelation))")
(%3ASUO-name "hole"))
([home] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1550)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(home_1 of Cls(BinaryPredicate))")
(%3ASUO-name "home"))
([home_1] of BinaryPredicate
(%3AidenticalTo "Slot(home)")
(%3ASUO-name "home"))
([Hominid] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1614)
(disjoint
[Ape]
[Monkey])
(%3AisInModule [OBJECTS]))
([HoofedMammal] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1604)
(disjoint
[AquaticMammal]
[Marsupial]
[Rodent]
[Primate])
(%3AisInModule [OBJECTS]))
([Horizontal] of PositionalAttribute
(contraryAttribute_2 [Vertical])
(%3Adocumentation "\"Attribute used to indicate that an &%Object is positioned width-wise with respect to another &%Object.\"")
(%3AAXIOMS "\n(UAX-801)\n(<=>\n (orientation ?OBJ1 ?OBJ2 Horizontal)\n (orientation ?OBJ2 ?OBJ1 Horizontal))\n")
(%3ASUO-name "Horizontal"))
([Hormone] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1641)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-687]))
([Hotel] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1770)
(%3AisInModule [OBJECTS]))
([Hour] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 996)
(relatedInternalConcept
"HourFn"
"HourDuration")
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS [UAX-403]))
([HourDuration] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 751)
(relatedInternalConcept "Hour")
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-282])
(%3AidenticalTo "Instance(HourDuration_1 of Cls(UnitOfMeasure))"))
([HourDuration_1] of UnitOfMeasure
(%3AidenticalTo "Cls(HourDuration)")
(%3Adocumentation "Time unit. 1 hour = 60 minutes."))
([HourFn] of BinaryFunction
(%3AidenticalTo
"Slot(HourFn_2)"
"Instance(HourFn_1 of Cls(TemporalRelation))")
(%3Adocumentation "\"A &%BinaryFunction that assigns a &%PositiveRealNumber and a subclass of &%Days to the &%Hours within each &%Day corresponding to that &%PositiveRealNumber. For example, (&%HourFn 12 &%Thursday) is the &%Class of all instances of noon Thursday. For another example, (&%HourFn 24 &%Day) would return the class of all instances of midnight. For still another example, (&%HourFn 14 (&%DayFn 18 (&%MonthFn 8 (YearFn 1912)))) denotes 2 PM on the 18th day of August 1912.\"")
(%3ASUO-name "HourFn"))
([HourFn_1] of TemporalRelation
(%3AidenticalTo
"Slot(HourFn_2)"
"Instance(HourFn of Cls(BinaryFunction))")
(%3Adocumentation "\"A &%BinaryFunction that assigns a &%PositiveRealNumber and a subclass of &%Days to the &%Hours within each &%Day corresponding to that &%PositiveRealNumber. For example, (&%HourFn 12 &%Thursday) is the &%Class of all instances of noon Thursday. For another example, (&%HourFn 24 &%Day) would return the class of all instances of midnight. For still another example, (&%HourFn 14 (&%DayFn 18 (&%MonthFn 8 (YearFn 1912)))) denotes 2 PM on the 18th day of August 1912.\"")
(%3ASUO-name "HourFn"))
([HourFn_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 926)
(%3ADomain2Type Class)
(%3ADomain1Type Instance)
(relatedInternalConcept "Hour")
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain2Class Day)
(%3AidenticalTo
"Instance(HourFn_1 of Cls(TemporalRelation))"
"Instance(HourFn of Cls(BinaryFunction))")
(%3AAXIOMS "\n(UAX-360)\n(=>\n (instance ?HOUR (HourFn ?NUMBER ?DAY))\n (lessThan ?NUMBER 24))\n\n(UAX-361)\n(=>\n (and\n (instance ?HOUR1 (HourFn ?NUMBER1 ?DAY))\n (instance ?HOUR2 (HourFn ?NUMBER2 ?DAY))\n (equal (SubtractionFn ?NUMBER2 ?NUMBER1) 1))\n (meetsTemporally ?HOUR1 ?HOUR2))\n")
(%3ASUO-name "HourFn"))
([Human] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1615)
(%3AisInModule [OBJECTS]))
([HumanLanguage] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 167)
(disjoint
[AnimalLanguage]
[ComputerLanguage])
(partition2
[SpokenHumanLanguage]
[ManualHumanLanguage])
(partition
[NaturalLanguage]
[ConstructedLanguage])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-068]))
([husband] of AsymmetricRelation
(%3Adocumentation "\"(&%husband ?MAN ?WOMAN) means that ?MAN is the husband of ?WOMAN.\"")
(%3AidenticalTo
"Slot(husband_2)"
"Instance(husband_1 of Cls(IrreflexiveRelation))")
(%3ASUO-name "husband"))
([husband_1] of IrreflexiveRelation
(%3Adocumentation "\"(&%husband ?MAN ?WOMAN) means that ?MAN is the husband of ?WOMAN.\"")
(%3AidenticalTo
"Instance(husband of Cls(AsymmetricRelation))"
"Slot(husband_2)")
(%3ASUO-name "husband"))
([husband_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1834)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(husband of Cls(AsymmetricRelation))"
"Instance(husband_1 of Cls(IrreflexiveRelation))")
(%3ASUO-name "husband"))
([Icon] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 158)
(disjoint [LinguisticExpression])
(%3AisInModule [BASE_ONTOLOGY]))
([identityElement] of BinaryPredicate
(%3Adocumentation "\"An object ?ID is the identity element for BinaryFunction ?FUNCTION just in case, for every instance ?INST, applying ?FUNCTION to ?INST and ?ID results in ?INST.\"")
(%3AidenticalTo
"Instance(identityElement_1 of Cls(AsymmetricRelation))"
"Slot(identityElement_2)")
(%3ASUO-name "identityElement"))
([identityElement_1] of AsymmetricRelation
(%3Adocumentation "\"An object ?ID is the identity element for BinaryFunction ?FUNCTION just in case, for every instance ?INST, applying ?FUNCTION to ?INST and ?ID results in ?INST.\"")
(%3AidenticalTo
"Slot(identityElement_2)"
"Instance(identityElement of Cls(BinaryPredicate))")
(%3ASUO-name "identityElement"))
([identityElement_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 539)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(identityElement_1 of Cls(AsymmetricRelation))"
"Instance(identityElement of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-218)\n(=>\n (identityElement ?FUNCTION ?ID)\n (forall (?INST)\n (=>\n (and\n (domain ?FUNCTION 1 ?CLASS)\n (instance ?INST ?CLASS))\n (equal (AssignmentFn ?FUNCTION ?ID ?INST) ?INST))))\n\n(UAX-219)\n(identityElement MultiplicationFn 1)\n\n(UAX-220)\n(identityElement AdditionFn 0)\n\n(UAX-221)\n(identityElement SubtractionFn 0)\n\n(UAX-222)\n(identityElement DivisionFn 1)\n")
(%3ASUO-name "identityElement"))
([Illuminated] of VisualAttribute
(contraryAttribute_2 [Unilluminated])
(%3Adocumentation "\"The &%Attribute of &%Regions that are illuminated to some degree, i.e. in which some shapes are visually discernable.\"")
(%3ASUO-name "Illuminated"))
([ImaginaryNumber] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 208)
(disjoint
[RealNumber]
[ComplexNumber])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-077]))
([ImaginaryPartFn] of UnaryFunction
(%3Adocumentation "\"(&%ImaginaryPartFn ?NUMBER) returns the part of ?NUMBER that has the square root of -1 as its factor.\"")
(%3AidenticalTo
"Instance(ImaginaryPartFn_1 of Cls(TotalValuedRelation))"
"Slot(ImaginaryPartFn_2)")
(%3ASUO-name "ImaginaryPartFn"))
([ImaginaryPartFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(ImaginaryPartFn of Cls(UnaryFunction))"
"Slot(ImaginaryPartFn_2)")
(%3Adocumentation "\"(&%ImaginaryPartFn ?NUMBER) returns the part of ?NUMBER that has the square root of -1 as its factor.\"")
(%3ASUO-name "ImaginaryPartFn"))
([ImaginaryPartFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 503)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(ImaginaryPartFn of Cls(UnaryFunction))"
"Instance(ImaginaryPartFn_1 of Cls(TotalValuedRelation))")
(%3AAXIOMS "\n(UAX-200)\n(=>\n (instance ?NUMBER ComplexNumber)\n (exists (?PART1 ?PART2)\n (and\n (equal ?PART1 (RealNumberFn ?NUMBER))\n (equal ?PART2 (ImaginaryPartFn ?NUMBER)))))\n")
(%3ASUO-name "ImaginaryPartFn"))
([ImmediateFamilyFn] of UnaryFunction
(%3Adocumentation "\"(&%ImmediateFamilyFn ?PERSON) denotes the immediate family of ?PERSON, i.e. the &%Group consisting of the &%parents of ?PERSON and anyone of whom ?PERSON is a &%parent.\"")
(%3AidenticalTo "Slot(ImmediateFamilyFn_1)")
(%3ASUO-name "ImmediateFamilyFn"))
([ImmediateFamilyFn_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1827)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(ImmediateFamilyFn of Cls(UnaryFunction))")
(%3AAXIOMS "\n(UAX-774)\n(=>\n (and\n (instance ?PERSON Human)\n (equal (ImmediateFamilyFn ?PERSON) ?FAMILY))\n (forall (?MEMBER)\n (<=>\n (member ?MEMBER ?FAMILY)\n (or\n (parent ?MEMBER ?PERSON)\n (parent ?PERSON ?MEMBER)))))\n")
(%3ASUO-name "ImmediateFamilyFn"))
([ImmediateFutureFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%TimePosition to a short, indeterminate &%TimeInterval that immediately follows the &%TimePosition.\"")
(%3AidenticalTo
"Instance(ImmediateFutureFn_1 of Cls(TemporalRelation))"
"Slot(ImmediateFutureFn_3)"
"Instance(ImmediateFutureFn_2 of Cls(TotalValuedRelation))")
(%3ASUO-name "ImmediateFutureFn"))
([ImmediateFutureFn_1] of TemporalRelation
(%3AidenticalTo
"Instance(ImmediateFutureFn of Cls(UnaryFunction))"
"Slot(ImmediateFutureFn_3)"
"Instance(ImmediateFutureFn_2 of Cls(TotalValuedRelation))")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%TimePosition to a short, indeterminate &%TimeInterval that immediately follows the &%TimePosition.\"")
(%3ASUO-name "ImmediateFutureFn"))
([ImmediateFutureFn_2] of TotalValuedRelation
(%3AidenticalTo
"Instance(ImmediateFutureFn of Cls(UnaryFunction))"
"Instance(ImmediateFutureFn_1 of Cls(TemporalRelation))"
"Slot(ImmediateFutureFn_3)")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%TimePosition to a short, indeterminate &%TimeInterval that immediately follows the &%TimePosition.\"")
(%3ASUO-name "ImmediateFutureFn"))
([ImmediateFutureFn_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 917)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(ImmediateFutureFn of Cls(UnaryFunction))"
"Instance(ImmediateFutureFn_1 of Cls(TemporalRelation))"
"Instance(ImmediateFutureFn_2 of Cls(TotalValuedRelation))")
(%3AAXIOMS "\n(UAX-357)\n(=>\n (instance ?INTERVAL TimeInterval)\n (starts (ImmediateFutureFn ?INTERVAL) (FutureFn ?INTERVAL)))\n")
(%3ASUO-name "ImmediateFutureFn"))
([immediateInstance] of AsymmetricRelation
(%3Adocumentation "\"An object is an &%immediateInstance of a &%SetOrClass if it is an instance of the &%SetOrClass and there does not exist a subclass of &%SetOrClass such that it is an instance of the subclass.\"")
(%3AidenticalTo
"Slot(immediateInstance_2)"
"Instance(immediateInstance_3 of Cls(BinaryPredicate))"
"Instance(immediateInstance_1 of Cls(IntransitiveRelation))")
(%3ASUO-name "immediateInstance"))
([immediateInstance_1] of IntransitiveRelation
(%3Adocumentation "\"An object is an &%immediateInstance of a &%SetOrClass if it is an instance of the &%SetOrClass and there does not exist a subclass of &%SetOrClass such that it is an instance of the subclass.\"")
(%3AidenticalTo
"Slot(immediateInstance_2)"
"Instance(immediateInstance of Cls(AsymmetricRelation))"
"Instance(immediateInstance_3 of Cls(BinaryPredicate))")
(%3ASUO-name "immediateInstance"))
([immediateInstance_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 12)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(immediateInstance of Cls(AsymmetricRelation))"
"Instance(immediateInstance_3 of Cls(BinaryPredicate))"
"Instance(immediateInstance_1 of Cls(IntransitiveRelation))")
(%3AAXIOMS "\n(UAX-001)\n(=>\n (immediateInstance ?ENTITY ?CLASS)\n (not (exists (?SUBCLASS)\n (and\n (subclass ?SUBCLASS ?CLASS)\n (instance ?ENTITY ?SUBCLASS)))))\n")
(%3ASUO-name "immediateInstance"))
([immediateInstance_3] of BinaryPredicate
(%3AidenticalTo
"Slot(immediateInstance_2)"
"Instance(immediateInstance of Cls(AsymmetricRelation))"
"Instance(immediateInstance_1 of Cls(IntransitiveRelation))")
(%3ASUO-name "immediateInstance"))
([ImmediatePastFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%TimePosition to a short, indeterminate &%TimeInterval that immediately precedes the &%TimePosition.\"")
(%3AidenticalTo
"Slot(ImmediatePastFn_3)"
"Instance(ImmediatePastFn_2 of Cls(TotalValuedRelation))"
"Instance(ImmediatePastFn_1 of Cls(TemporalRelation))")
(%3ASUO-name "ImmediatePastFn"))
([ImmediatePastFn_1] of TemporalRelation
(%3AidenticalTo
"Slot(ImmediatePastFn_3)"
"Instance(ImmediatePastFn_2 of Cls(TotalValuedRelation))"
"Instance(ImmediatePastFn of Cls(UnaryFunction))")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%TimePosition to a short, indeterminate &%TimeInterval that immediately precedes the &%TimePosition.\"")
(%3ASUO-name "ImmediatePastFn"))
([ImmediatePastFn_2] of TotalValuedRelation
(%3AidenticalTo
"Slot(ImmediatePastFn_3)"
"Instance(ImmediatePastFn_1 of Cls(TemporalRelation))"
"Instance(ImmediatePastFn of Cls(UnaryFunction))")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%TimePosition to a short, indeterminate &%TimeInterval that immediately precedes the &%TimePosition.\"")
(%3ASUO-name "ImmediatePastFn"))
([ImmediatePastFn_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 912)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(ImmediatePastFn_2 of Cls(TotalValuedRelation))"
"Instance(ImmediatePastFn_1 of Cls(TemporalRelation))"
"Instance(ImmediatePastFn of Cls(UnaryFunction))")
(%3AAXIOMS "\n(UAX-354)\n(=>\n (instance ?INTERVAL TimeInterval)\n (finishes (ImmediatePastFn ?INTERVAL) (PastFn ?INTERVAL)))\n")
(%3ASUO-name "ImmediatePastFn"))
([immediateSubclass] of AsymmetricRelation
(%3Adocumentation "\"A &%SetOrClass ?CLASS1 is an &%immediateSubclass of another &%SetOrClass ?CLASS2 just in case ?CLASS1 is a subclass of ?CLASS2 and there is no other subclass of ?CLASS2 such that ?CLASS1 is also a subclass of it.\"")
(%3AidenticalTo
"Instance(immediateSubclass_1 of Cls(IntransitiveRelation))"
"Instance(immediateSubclass_3 of Cls(BinaryPredicate))"
"Slot(immediateSubclass_2)")
(%3ASUO-name "immediateSubclass"))
([immediateSubclass_1] of IntransitiveRelation
(%3Adocumentation "\"A &%SetOrClass ?CLASS1 is an &%immediateSubclass of another &%SetOrClass ?CLASS2 just in case ?CLASS1 is a subclass of ?CLASS2 and there is no other subclass of ?CLASS2 such that ?CLASS1 is also a subclass of it.\"")
(%3AidenticalTo
"Instance(immediateSubclass of Cls(AsymmetricRelation))"
"Instance(immediateSubclass_3 of Cls(BinaryPredicate))"
"Slot(immediateSubclass_2)")
(%3ASUO-name "immediateSubclass"))
([immediateSubclass_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 18)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(immediateSubclass of Cls(AsymmetricRelation))"
"Instance(immediateSubclass_1 of Cls(IntransitiveRelation))"
"Instance(immediateSubclass_3 of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-004)\n(=>\n (immediateSubclass ?CLASS1 ?CLASS2)\n (not (exists (?CLASS3)\n (and\n (subclass ?CLASS3 ?CLASS2)\n (subclass ?CLASS1 ?CLASS3)\n (not (equal ?CLASS2 ?CLASS3))\n (not (equal ?CLASS1 ?CLASS3))))))\n")
(%3ASUO-name "immediateSubclass"))
([immediateSubclass_3] of BinaryPredicate
(%3AidenticalTo
"Instance(immediateSubclass of Cls(AsymmetricRelation))"
"Instance(immediateSubclass_1 of Cls(IntransitiveRelation))"
"Slot(immediateSubclass_2)")
(%3ASUO-name "immediateSubclass"))
([Impacting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1245)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-519]))
([Impelling] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1236)
(%3AisInModule [PROCESSES]))
([Inch] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 771)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-290])
(%3AidenticalTo "Instance(Inch_1 of Cls(UnitOfMeasure))"))
([Inch_1] of UnitOfMeasure
(%3AidenticalTo "Cls(Inch)")
(%3Adocumentation "English length unit of inches."))
([increasesLikelihood] of ProbabilityRelation
(%3AidenticalTo
"Instance(increasesLikelihood_2 of Cls(IrreflexiveRelation))"
"Instance(increasesLikelihood_1 of Cls(BinaryPredicate))"
"Slot(increasesLikelihood_3)")
(%3Adocumentation "\"One of the basic &%ProbabilityRelations. (&%increasesLikelihood ?FORMULA1 ?FORMULA2) means that ?FORMULA2 is more likely to be true if ?FORMULA1 is true.\"")
(%3ASUO-name "increasesLikelihood"))
([increasesLikelihood_1] of BinaryPredicate
(%3Adocumentation "\"One of the basic &%ProbabilityRelations. (&%increasesLikelihood ?FORMULA1 ?FORMULA2) means that ?FORMULA2 is more likely to be true if ?FORMULA1 is true.\"")
(%3AidenticalTo
"Instance(increasesLikelihood_2 of Cls(IrreflexiveRelation))"
"Slot(increasesLikelihood_3)"
"Instance(increasesLikelihood of Cls(ProbabilityRelation))")
(%3ASUO-name "increasesLikelihood"))
([increasesLikelihood_2] of IrreflexiveRelation
(%3Adocumentation "\"One of the basic &%ProbabilityRelations. (&%increasesLikelihood ?FORMULA1 ?FORMULA2) means that ?FORMULA2 is more likely to be true if ?FORMULA1 is true.\"")
(%3AidenticalTo
"Instance(increasesLikelihood_1 of Cls(BinaryPredicate))"
"Slot(increasesLikelihood_3)"
"Instance(increasesLikelihood of Cls(ProbabilityRelation))")
(%3ASUO-name "increasesLikelihood"))
([increasesLikelihood_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 288)
(disjointRelation
[decreasesLikelihood_3]
[independentProbability_3])
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(increasesLikelihood_2 of Cls(IrreflexiveRelation))"
"Instance(increasesLikelihood_1 of Cls(BinaryPredicate))"
"Instance(increasesLikelihood of Cls(ProbabilityRelation))")
(%3AAXIOMS "\n(UAX-098)\n(=>\n (and\n (increasesLikelihood ?FORMULA1 ?FORMULA2)\n (equal (ProbabilityFn ?FORMULA2) ?NUMBER1)\n (conditionalProbability ?FORMULA1 ?FORMULA2 ?NUMBER2))\n (greaterThan ?NUMBER2 ?NUMBER1))\n")
(%3ASUO-name "increasesLikelihood"))
([Increasing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1186)
(disjoint [Decreasing])
(relatedInternalConcept "Putting")
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-496]))
([independentProbability] of ProbabilityRelation
(%3AidenticalTo
"Instance(independentProbability_2 of Cls(SymmetricRelation))"
"Instance(independentProbability_1 of Cls(BinaryPredicate))"
"Slot(independentProbability_3)")
(%3Adocumentation "\"One of the basic &%ProbabilityRelations. (&%independentProbability ?FORMULA1 ?FORMULA2) means that the probabilities of ?FORMULA1 and ?FORMULA2 being true are independent.\"")
(%3ASUO-name "independentProbability"))
([independentProbability_1] of BinaryPredicate
(%3Adocumentation "\"One of the basic &%ProbabilityRelations. (&%independentProbability ?FORMULA1 ?FORMULA2) means that the probabilities of ?FORMULA1 and ?FORMULA2 being true are independent.\"")
(%3AidenticalTo
"Instance(independentProbability of Cls(ProbabilityRelation))"
"Instance(independentProbability_2 of Cls(SymmetricRelation))"
"Slot(independentProbability_3)")
(%3ASUO-name "independentProbability"))
([independentProbability_2] of SymmetricRelation
(%3Adocumentation "\"One of the basic &%ProbabilityRelations. (&%independentProbability ?FORMULA1 ?FORMULA2) means that the probabilities of ?FORMULA1 and ?FORMULA2 being true are independent.\"")
(%3AidenticalTo
"Instance(independentProbability of Cls(ProbabilityRelation))"
"Instance(independentProbability_1 of Cls(BinaryPredicate))"
"Slot(independentProbability_3)")
(%3ASUO-name "independentProbability"))
([independentProbability_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 292)
(disjointRelation
[increasesLikelihood_3]
[decreasesLikelihood_3])
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(independentProbability of Cls(ProbabilityRelation))"
"Instance(independentProbability_2 of Cls(SymmetricRelation))"
"Instance(independentProbability_1 of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-100)\n(=>\n (and\n (independentProbability ?FORMULA1 ?FORMULA2)\n (equal (ProbabilityFn ?FORMULA2) ?NUMBER1)\n (conditionalProbability ?FORMULA1 ?FORMULA2 ?NUMBER2))\n (equal ?NUMBER2 ?NUMBER1))\n\n(UAX-101)\n(=>\n (and\n (instance ?FORMULA1 Formula)\n (instance ?FORMULA2 Formula))\n (or\n (increasesLikelihood ?FORMULA1 ?FORMULA2)\n (decreasesLikelihood ?FORMULA1 ?FORMULA2)\n (independentProbability ?FORMULA1 ?FORMULA2)))\n")
(%3ASUO-name "independentProbability"))
([InformationMeasure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 820)
(%3AisInModule [UNITS_OF_MEASURE]))
([Ingesting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1123)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-467]))
([inhabits] of BinaryPredicate
(%3Adocumentation "\"A very basic notion of living within something else. (&%inhabits ?ORGANISM ?OBJECT) means that ?OBJECT is the residence, nest, home, etc. of ?ORGANISM.\"")
(%3AidenticalTo
"Slot(inhabits_2)"
"Instance(inhabits_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "inhabits"))
([inhabits_1] of AsymmetricRelation
(%3Adocumentation "\"A very basic notion of living within something else. (&%inhabits ?ORGANISM ?OBJECT) means that ?OBJECT is the residence, nest, home, etc. of ?ORGANISM.\"")
(%3AidenticalTo
"Slot(inhabits_2)"
"Instance(inhabits of Cls(BinaryPredicate))")
(%3ASUO-name "inhabits"))
([inhabits_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1548)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(inhabits of Cls(BinaryPredicate))"
"Instance(inhabits_1 of Cls(AsymmetricRelation))")
(%3AAXIOMS "\n(UAX-662)\n(=>\n (inhabits ?ORGANISM ?OBJ)\n (exists (?TIME)\n (holdsDuring ?TIME (located ?ORGANISM ?OBJ))))\n")
(%3ASUO-name "inhabits"))
([InheritableRelation] of %3AClass
(%3ALOAD-SEQUENCE 284)
(%3AisInModule
[KIF-core]
[BASE_ONTOLOGY])
(%3AidenticalTo "Instance(InheritableRelation_1 of Cls(Class))"))
([InheritableRelation_1] of Class
(%3Adocumentation "\"This is a &%Class of &%Classes. Each &%instance of &%InheritableRelation is a &%subclass of &%Relation whose properties can be inherited downward in the class hierarchy via the &%subrelation &%Predicate.\"")
(%3AidenticalTo "Cls(InheritableRelation)")
(%3ASUO-name "InheritableRelation"))
([inhibits] of BinaryPredicate
(%3Adocumentation "\"A very general &%Predicate. (&%inhibits ?PROC1 ?PROC2) means that the &%Process ?PROC1 inhibits or hinders the occurrence of the &%Process ?PROC2. For example, obstructing an object inhibits moving it. Note that this is a relation between types of &%Processes, not between instances.\"")
(%3AidenticalTo
"Slot(inhibits_2)"
"Instance(inhibits_1 of Cls(IrreflexiveRelation))")
(%3ASUO-name "inhibits"))
([inhibits_1] of IrreflexiveRelation
(%3Adocumentation "\"A very general &%Predicate. (&%inhibits ?PROC1 ?PROC2) means that the &%Process ?PROC1 inhibits or hinders the occurrence of the &%Process ?PROC2. For example, obstructing an object inhibits moving it. Note that this is a relation between types of &%Processes, not between instances.\"")
(%3AidenticalTo
"Slot(inhibits_2)"
"Instance(inhibits of Cls(BinaryPredicate))")
(%3ASUO-name "inhibits"))
([inhibits_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 451)
(relatedInternalConcept "prevents")
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Class)
(%3AidenticalTo
"Instance(inhibits_1 of Cls(IrreflexiveRelation))"
"Instance(inhibits of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-180)\n(=>\n (inhibits ?PROC1 ?PROC2)\n (forall (?TIME ?PLACE)\n (decreasesLikelihood\n (holdsDuring ?TIME (exists (?INST1) (and (instance ?INST1 ?PROC1) (located ?INST1 ?PLACE))))\n (holdsDuring ?TIME (exists (?INST2) (and (instance ?INST2 ?PROC2) (located ?INST2 ?PLACE)))))))\n")
(%3ASUO-name "inhibits"))
([initialList] of BinaryPredicate
(%3Adocumentation "\"(&%initialList ?LIST1 ?LIST2) means that ?LIST1 is a &%subList of ?LIST2 and (&%ListOrderFn ?LIST1 ?NUMBER) returns the same value as (&%ListOrderFn ?LIST2 ?NUMBER) for all of the values of ?NUMBER over which (&%ListOrderFn ?LIST1 ?NUMBER) is defined.\"")
(%3AidenticalTo
"Slot(initialList_2)"
"Instance(initialList_1 of Cls(PartialOrderingRelation))")
(%3ASUO-name "initialList"))
([initialList_1] of PartialOrderingRelation
(%3Adocumentation "\"(&%initialList ?LIST1 ?LIST2) means that ?LIST1 is a &%subList of ?LIST2 and (&%ListOrderFn ?LIST1 ?NUMBER) returns the same value as (&%ListOrderFn ?LIST2 ?NUMBER) for all of the values of ?NUMBER over which (&%ListOrderFn ?LIST1 ?NUMBER) is defined.\"")
(%3AidenticalTo
"Slot(initialList_2)"
"Instance(initialList of Cls(BinaryPredicate))")
(%3ASUO-name "initialList"))
([initialList_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 352)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(initialList_1 of Cls(PartialOrderingRelation))"
"Instance(initialList of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-134)\n(=>\n (initialList ?LIST1 ?LIST2)\n (forall (?NUMBER1 ?NUMBER2)\n (=>\n (and\n (equal (ListLengthFn ?LIST1) ?NUMBER1)\n (lessThanOrEqualTo ?NUMBER2 ?NUMBER1))\n (equal (ListOrderFn ?LIST1 ?NUMBER2) (ListOrderFn ?LIST2 ?NUMBER2)))))\n\n(UAX-135)\n(initialList (ListFn @ROW) (ListFn @ROW ?ITEM))\n")
(%3ASUO-name "initialList"))
([InitialNodeFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%GraphArc to the initial node of the &%GraphArc. Note that this is a partial function. In particular, the function is undefined for &%GraphArcs that are not part of a &%DirectedGraph.\"")
(%3AidenticalTo
"Slot(InitialNodeFn_2)"
"Instance(InitialNodeFn_1 of Cls(PartialValuedRelation))")
(%3ASUO-name "InitialNodeFn"))
([InitialNodeFn_1] of PartialValuedRelation
(%3AidenticalTo
"Slot(InitialNodeFn_2)"
"Instance(InitialNodeFn of Cls(UnaryFunction))")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%GraphArc to the initial node of the &%GraphArc. Note that this is a partial function. In particular, the function is undefined for &%GraphArcs that are not part of a &%DirectedGraph.\"")
(%3ASUO-name "InitialNodeFn"))
([InitialNodeFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 617)
(relatedInternalConcept "BeginNodeFn")
(%3AisInModule [GRAPH_THEORY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(InitialNodeFn_1 of Cls(PartialValuedRelation))"
"Instance(InitialNodeFn of Cls(UnaryFunction))")
(%3ASUO-name "InitialNodeFn"))
([Injecting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1232)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-514]))
([Injuring] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1145)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-478]
[UAX-479]))
([inList] of BinaryPredicate
(%3Adocumentation "\"The analog of &%element and &%instance for &%Lists. (&%inList ?OBJ ?LIST) means that ?OBJ is in the &%List ?LIST. For example, (&%inList &%Tuesday (&%ListFn &%Monday &%Tuesday &%Wednesday)) would be true.\"")
(%3AidenticalTo
"Slot(inList_3)"
"Instance(inList_2 of Cls(AsymmetricRelation))"
"Instance(inList_1 of Cls(IrreflexiveRelation))")
(%3ASUO-name "inList"))
([inList_1] of IrreflexiveRelation
(%3Adocumentation "\"The analog of &%element and &%instance for &%Lists. (&%inList ?OBJ ?LIST) means that ?OBJ is in the &%List ?LIST. For example, (&%inList &%Tuesday (&%ListFn &%Monday &%Tuesday &%Wednesday)) would be true.\"")
(%3AidenticalTo
"Slot(inList_3)"
"Instance(inList of Cls(BinaryPredicate))"
"Instance(inList_2 of Cls(AsymmetricRelation))")
(%3ASUO-name "inList"))
([inList_2] of AsymmetricRelation
(%3Adocumentation "\"The analog of &%element and &%instance for &%Lists. (&%inList ?OBJ ?LIST) means that ?OBJ is in the &%List ?LIST. For example, (&%inList &%Tuesday (&%ListFn &%Monday &%Tuesday &%Wednesday)) would be true.\"")
(%3AidenticalTo
"Slot(inList_3)"
"Instance(inList of Cls(BinaryPredicate))"
"Instance(inList_1 of Cls(IrreflexiveRelation))")
(%3ASUO-name "inList"))
([inList_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 347)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(inList of Cls(BinaryPredicate))"
"Instance(inList_2 of Cls(AsymmetricRelation))"
"Instance(inList_1 of Cls(IrreflexiveRelation))")
(%3AAXIOMS "\n(UAX-131)\n(=>\n (inList ?ITEM ?LIST)\n (exists (?NUMBER)\n (equal (ListOrderFn ?LIST ?NUMBER) ?ITEM)))\n")
(%3ASUO-name "inList"))
([inScopeOfInterest] of BinaryPredicate
(%3Adocumentation "\"A very general &%Predicate. (&%inScopeOfInterest ?AGENT ?ENTITY) means that ?ENTITY is within the scope of interest of ?AGENT. Note that the interest indicated can be either positive or negative, i.e. the ?AGENT can have an interest in avoiding or promoting ?ENTITY.\"")
(%3AidenticalTo
"Slot(inScopeOfInterest_2)"
"Instance(inScopeOfInterest_1 of Cls(IntentionalRelation))")
(%3ASUO-name "inScopeOfInterest"))
([inScopeOfInterest_1] of IntentionalRelation)
([inScopeOfInterest_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 305)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(inScopeOfInterest of Cls(BinaryPredicate))"
"Instance(inScopeOfInterest_1 of Cls(IntentionalRelation))")
(%3AAXIOMS "\n(UAX-106)\n(=>\n (and\n (instance ?PROCESS IntentionalProcess)\n (agent ?PROCESS ?AGENT)\n (patient ?PROCESS ?OBJECT))\n (inScopeOfInterest ?AGENT ?OBJECT))\n")
(%3ASUO-name "inScopeOfInterest"))
([Insect] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1594)
(disjoint
[Arachnid]
[Myriapod]
[Crustacean])
(%3AisInModule [OBJECTS]))
([Inserting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1230)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-513]))
([instance] of BinaryPredicate
(%3Adocumentation "\"An object is an &%instance of a &%SetOrClass if it is included in that &%SetOrClass. An individual may be an instance of many classes, some of which may be subclasses of others. Thus, there is no assumption in the meaning of &%instance about specificity or uniqueness.\"")
(%3AidenticalTo "Slot(instance_1)")
(%3ASUO-name "instance"))
([instance_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 11)
(relatedInternalConcept "member")
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(instance of Cls(BinaryPredicate))")
(%3ASUO-name "instance"))
([instrument] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 279)
(disjointRelation
[resource]
[result])
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(instrument_1 of Cls(CaseRole))")
(%3ASUO-name "instrument"))
([instrument_1] of CaseRole
(%3AidenticalTo "Slot(instrument)")
(%3ASUO-name "instrument"))
([Integer] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 218)
(partition2
[NegativeInteger]
[NonnegativeInteger])
(partition
[OddInteger]
[EvenInteger])
(%3AisInModule [BASE_ONTOLOGY]))
([IntegerSquareRootFn] of UnaryFunction
(%3Adocumentation "\"(&%IntegerSquareRootFn ?NUMBER) returns the integer square root of ?NUMBER.\"")
(%3AidenticalTo
"Instance(IntegerSquareRootFn_1 of Cls(PartialValuedRelation))"
"Slot(IntegerSquareRootFn_2)")
(%3ASUO-name "IntegerSquareRootFn"))
([IntegerSquareRootFn_1] of PartialValuedRelation
(%3AidenticalTo
"Instance(IntegerSquareRootFn of Cls(UnaryFunction))"
"Slot(IntegerSquareRootFn_2)")
(%3Adocumentation "\"(&%IntegerSquareRootFn ?NUMBER) returns the integer square root of ?NUMBER.\"")
(%3ASUO-name "IntegerSquareRootFn"))
([IntegerSquareRootFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 505)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(IntegerSquareRootFn of Cls(UnaryFunction))"
"Instance(IntegerSquareRootFn_1 of Cls(PartialValuedRelation))")
(%3ASUO-name "IntegerSquareRootFn"))
([IntentionalProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1151)
(disjoint
[AutonomicProcess]
[GeologicalProcess])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-482]
[UAX-483]
[UAX-484]))
([IntentionalPsychologicalProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1155)
(%3AisInModule [PROCESSES]))
([IntentionalRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 0)
(%3ASLOT-CONSTRAINTS [UAX-102])
(%3AidenticalTo "Instance(IntentionalRelation_1 of Cls(InheritableRelation))"))
([IntentionalRelation_1] of InheritableRelation
(%3Adocumentation "\"The &%Class of &%Relations between an &%Agent and one or more &%Entities, where the &%Relation requires that the &%Agent have awareness of the &%Entity.\"")
(%3AidenticalTo "Cls(IntentionalRelation)"))
([interiorPart] of AsymmetricRelation
(%3Adocumentation "\"(&%interiorPart ?OBJ1 ?OBJ2) means that ?OBJ1 is part ?OBJ2 and there is no overlap between ?OBJ1 and any &%superficialPart ?OBJ2.\"")
(%3AidenticalTo
"Instance(interiorPart_1 of Cls(TransitiveRelation))"
"Instance(interiorPart_3 of Cls(SpatialRelation))"
"Slot(interiorPart_2)")
(%3ASUO-name "interiorPart"))
([interiorPart_1] of TransitiveRelation
(%3Adocumentation "\"(&%interiorPart ?OBJ1 ?OBJ2) means that ?OBJ1 is part ?OBJ2 and there is no overlap between ?OBJ1 and any &%superficialPart ?OBJ2.\"")
(%3AidenticalTo
"Instance(interiorPart of Cls(AsymmetricRelation))"
"Instance(interiorPart_3 of Cls(SpatialRelation))"
"Slot(interiorPart_2)")
(%3ASUO-name "interiorPart"))
([interiorPart_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1037)
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(interiorPart_1 of Cls(TransitiveRelation))"
"Instance(interiorPart of Cls(AsymmetricRelation))"
"Instance(interiorPart_3 of Cls(SpatialRelation))")
(%3AAXIOMS "\n(UAX-428)\n(=>\n (interiorPart ?OBJ1 ?OBJ2)\n (forall (?PART)\n (=>\n (superficialPart ?PART ?OBJ2)\n (not\n (overlapsSpatially ?OBJ1 ?PART)))))\n")
(%3ASUO-name "interiorPart"))
([interiorPart_3] of SpatialRelation
(%3AidenticalTo
"Instance(interiorPart_1 of Cls(TransitiveRelation))"
"Instance(interiorPart of Cls(AsymmetricRelation))"
"Slot(interiorPart_2)")
(%3ASUO-name "interiorPart"))
([InternalAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 197)
(disjoint [RelationalAttribute])
(%3AisInModule [BASE_ONTOLOGY]))
([InternalChange] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1355)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-574]))
([Interpreting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1183)
(relatedInternalConcept "Reading")
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-495]))
([IntersectionFn] of BinaryFunction
(%3AidenticalTo
"Instance(IntersectionFn_1 of Cls(TotalValuedRelation))"
"Slot(IntersectionFn_2)")
(%3Adocumentation "\"A &%BinaryFunction that maps two %SetOrClasses to the intersection of these &%SetOrClasses. An object is an instance of the intersection of two &%SetOrClasses just in case it is an instance of both of those &%SetOrClasses.\"")
(%3ASUO-name "IntersectionFn"))
([IntersectionFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(IntersectionFn of Cls(BinaryFunction))"
"Slot(IntersectionFn_2)")
(%3Adocumentation "\"A &%BinaryFunction that maps two %SetOrClasses to the intersection of these &%SetOrClasses. An object is an instance of the intersection of two &%SetOrClasses just in case it is an instance of both of those &%SetOrClasses.\"")
(%3ASUO-name "IntersectionFn"))
([IntersectionFn_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 565)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3ADomain2Class SetOrClass)
(%3AidenticalTo
"Instance(IntersectionFn of Cls(BinaryFunction))"
"Instance(IntersectionFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "IntersectionFn"))
([IntervalFn] of BinaryFunction
(%3AidenticalTo "Slot(IntervalFn_1)")
(%3Adocumentation "\"A &%BinaryFunction that maps two &%ConstantQuantities to the &%Class of &%ConstantQuantities that comprise the interval from the first &%ConstantQuantity to the second &%ConstantQuantity. For example, (&%IntervalFn (&%MeasureFn 8 &%Meter) (&%MeasureFn 14 &%Meter)) would return the &%Class of &%ConstantQuantities between 8 and 14 meters in length.\"")
(%3ASUO-name "IntervalFn"))
([IntervalFn_1] of %3ATernarySlot
(%3ALOAD-SEQUENCE 674)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(relatedInternalConcept "RecurrentTimeIntervalFn")
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain2Class ConstantQuantity)
(%3AidenticalTo "Instance(IntervalFn of Cls(BinaryFunction))")
(%3AAXIOMS "\n(UAX-275)\n(<=>\n (instance ?QUANTITY (IntervalFn ?FROM ?TO))\n (and\n (greaterThanOrEqualTo ?QUANTITY ?FROM)\n (lessThanOrEqualTo ?QUANTITY ?TO)))\n")
(%3ASUO-name "IntervalFn"))
([IntransitiveRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 268)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-095]))
([InvalidDeductiveArgument] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1874)
(disjoint [ValidDeductiveArgument])
(%3AisInModule [QUALITIES]))
([inverse] of BinaryPredicate
(%3Adocumentation "\"The inverse of a &%BinaryRelation is a relation in which all the tuples of the original relation are reversed. In other words, one &%BinaryRelation is the inverse of another if they are equivalent when their arguments are swapped.\"")
(%3AidenticalTo
"Instance(inverse_1 of Cls(IrreflexiveRelation))"
"Instance(inverse_3 of Cls(SymmetricRelation))"
"Instance(inverse_2 of Cls(IntransitiveRelation))"
"Slot(inverse_4)")
(%3ASUO-name "inverse"))
([inverse_1] of IrreflexiveRelation
(%3Adocumentation "\"The inverse of a &%BinaryRelation is a relation in which all the tuples of the original relation are reversed. In other words, one &%BinaryRelation is the inverse of another if they are equivalent when their arguments are swapped.\"")
(%3AidenticalTo
"Instance(inverse_3 of Cls(SymmetricRelation))"
"Instance(inverse of Cls(BinaryPredicate))"
"Instance(inverse_2 of Cls(IntransitiveRelation))"
"Slot(inverse_4)")
(%3ASUO-name "inverse"))
([inverse_2] of IntransitiveRelation
(%3Adocumentation "\"The inverse of a &%BinaryRelation is a relation in which all the tuples of the original relation are reversed. In other words, one &%BinaryRelation is the inverse of another if they are equivalent when their arguments are swapped.\"")
(%3AidenticalTo
"Instance(inverse_1 of Cls(IrreflexiveRelation))"
"Instance(inverse_3 of Cls(SymmetricRelation))"
"Instance(inverse of Cls(BinaryPredicate))"
"Slot(inverse_4)")
(%3ASUO-name "inverse"))
([inverse_3] of SymmetricRelation
(%3Adocumentation "\"The inverse of a &%BinaryRelation is a relation in which all the tuples of the original relation are reversed. In other words, one &%BinaryRelation is the inverse of another if they are equivalent when their arguments are swapped.\"")
(%3AidenticalTo
"Instance(inverse_1 of Cls(IrreflexiveRelation))"
"Instance(inverse of Cls(BinaryPredicate))"
"Instance(inverse_2 of Cls(IntransitiveRelation))"
"Slot(inverse_4)")
(%3ASUO-name "inverse"))
([inverse_4] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 14)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(inverse_1 of Cls(IrreflexiveRelation))"
"Instance(inverse_3 of Cls(SymmetricRelation))"
"Instance(inverse of Cls(BinaryPredicate))"
"Instance(inverse_2 of Cls(IntransitiveRelation))")
(%3AAXIOMS "\n(UAX-002)\n(=>\n (inverse ?REL1 ?REL2)\n (forall (?INST1 ?INST2)\n (<=>\n (holds ?REL1 ?INST1 ?INST2)\n (holds ?REL2 ?INST2 ?INST1))))\n")
(%3ASUO-name "inverse"))
([Invertebrate] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1588)
(disjoint [Vertebrate])
(disjointDecomposition
[Worm]
[Mollusk]
[Arthropod])
(%3AisInModule [OBJECTS]))
([Investigating] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1396)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-594]
[UAX-595]))
([IrrationalNumber] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 211)
(disjoint [RationalNumber])
(%3AisInModule [BASE_ONTOLOGY]))
([irreflexiveOn] of BinaryPredicate
(%3Adocumentation "\"A &%BinaryRelation is irreflexive on a &%SetOrClass only if no instance of the &%SetOrClass bears the relation to itself.\"")
(%3AidenticalTo
"Instance(irreflexiveOn_1 of Cls(AsymmetricRelation))"
"Slot(irreflexiveOn_2)")
(%3ASUO-name "irreflexiveOn"))
([irreflexiveOn_1] of AsymmetricRelation
(%3Adocumentation "\"A &%BinaryRelation is irreflexive on a &%SetOrClass only if no instance of the &%SetOrClass bears the relation to itself.\"")
(%3AidenticalTo
"Slot(irreflexiveOn_2)"
"Instance(irreflexiveOn of Cls(BinaryPredicate))")
(%3ASUO-name "irreflexiveOn"))
([irreflexiveOn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 392)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(irreflexiveOn_1 of Cls(AsymmetricRelation))"
"Instance(irreflexiveOn of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-152)\n(=>\n (irreflexiveOn ?RELATION ?CLASS)\n (forall (?INST)\n (=>\n (instance ?INST ?CLASS)\n (not\n (holds ?RELATION ?INST ?INST)))))\n")
(%3ASUO-name "irreflexiveOn"))
([IrreflexiveRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 256)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-089]))
([Island] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1529)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS
[UAX-655]
[UAX-656]
[UAX-657]))
([January] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 941)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS
[UAX-369]
[UAX-370]))
([JoiningAnOrganization] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1162)
(disjoint [LeavingAnOrganization])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-487]))
([Joule] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 714)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Joule_1 of Cls(SystemeInternationalUnit))"))
([Joule_1] of SystemeInternationalUnit
(%3Adocumentation "SI energy measure. Symbol: J. It is the work done when the point of application of 1 &%Newton is displaced a distance of 1 &%Meter in the direction of the force. &%Joule = N*m = m^2*kg*s^(-2).")
(%3AidenticalTo "Cls(Joule)"))
([JudicialOrganization] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1852)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-783]))
([JudicialProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1176)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-494]))
([July] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 960)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS
[UAX-382]
[UAX-383]))
([June] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 957)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS
[UAX-380]
[UAX-381]))
([KappaFn] of BinaryFunction
(%3AidenticalTo "Slot(KappaFn_1)")
(%3Adocumentation "\"A class-forming operator that takes two arguments: a variable and a formula containing at least one unbound occurrence of the variable. The result of applying &%KappaFn to a variable and a formula is the &%SetOrClass of things that satisfy the formula. For example, we can denote the &%SetOrClass of prime numbers that are less than 100 with the following expression: (KappaFn ?NUMBER (and (instance ?NUMBER PrimeNumber) (lessThan ?NUMBER 100))). Note that the use of this function is discouraged, since there is currently no axiomatic support for it.\"")
(%3ASUO-name "KappaFn"))
([KappaFn_1] of %3ATernarySlot
(%3ALOAD-SEQUENCE 581)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3ADomain2Class Formula)
(%3AidenticalTo "Instance(KappaFn of Cls(BinaryFunction))")
(%3ASUO-name "KappaFn"))
([Keeping] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1316)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-554]
[UAX-555]))
([KelvinDegree] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 694)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(KelvinDegree_1 of Cls(SystemeInternationalUnit))"))
([KelvinDegree_1] of SystemeInternationalUnit
(%3Adocumentation "SI &%TemperatureMeasure. Symbol: K. It is one of the base units in SI (it is also a unit in the ITS system). Kelvin differs from the Celsius scale in that the triple point of water is defined to be 273.16 &%KelvinDegrees while it is 0 &%CelsiusDegrees. The magnitudes of intervals in the two scales are the same. By definition the conversion constant is 273.15.")
(%3AidenticalTo "Cls(KelvinDegree)"))
([KIF-core] of %3AModule
(%3Adocumentation "SKIF-core is the module to which we assign the base internal concepts of the core Protege Knowledge base, present in the protege file before a SKIF file is loaded. These concpets are not usually exported to an output SKIF file.")
(%3ASUO-name "SKIF-core"))
([KIFcore2_00373] of %3ASTANDARD-FACET
(%3AASSOCIATED-SLOT [%3ASUO-name]))
([Killing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1332)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-562]
[UAX-563]
[UAX-564]))
([KiloByte] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 824)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-310])
(%3AidenticalTo "Instance(KiloByte_1 of Cls(UnitOfMeasure))"))
([KiloByte_1] of UnitOfMeasure
(%3AidenticalTo "Cls(KiloByte)")
(%3Adocumentation "One &%KiloByte (KB) of information. One &%KiloByte is 1024 &%Bytes. Note that this sense of 'kilo' is different from the one accepted in the SI system."))
([KiloFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to 1,000 units of the original &%UnitOfMeasure. For example, (&%KiloFn &%Gram) is 1,000 &%Grams.\"")
(%3AidenticalTo
"Slot(KiloFn_2)"
"Instance(KiloFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "KiloFn"))
([KiloFn_1] of TotalValuedRelation
(%3AidenticalTo
"Slot(KiloFn_2)"
"Instance(KiloFn of Cls(UnaryFunction))")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to 1,000 units of the original &%UnitOfMeasure. For example, (&%KiloFn &%Gram) is 1,000 &%Grams.\"")
(%3ASUO-name "KiloFn"))
([KiloFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 658)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(KiloFn_1 of Cls(TotalValuedRelation))"
"Instance(KiloFn of Cls(UnaryFunction))")
(%3AAXIOMS "\n(UAX-267)\n(=>\n (instance ?UNIT UnitOfMeasure)\n (equal (KiloFn ?UNIT) (MeasureFn 1000 ?UNIT)))\n")
(%3ASUO-name "KiloFn"))
([knows] of PropositionalAttitude
(%3Adocumentation "\"The epistemic predicate of knowing. (&%knows ?AGENT ?FORMULA) means that ?AGENT knows the proposition expressed by ?FORMULA. Note that &%knows entails conscious awareness, so this &%Predicate cannot be used to express tacit or subconscious or unconscious knowledge.\"")
(%3AidenticalTo
"Slot(knows_1)"
"Instance(knows_2 of Cls(BinaryPredicate))")
(%3ASUO-name "knows"))
([knows_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 316)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(knows of Cls(PropositionalAttitude))"
"Instance(knows_2 of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-111)\n(=>\n (knows ?AGENT ?FORMULA)\n (believes ?AGENT ?FORMULA))\n\n(UAX-112)\n(=>\n (knows ?AGENT ?FORMULA)\n (true ?FORMULA True))\n")
(%3ASUO-name "knows"))
([knows_2] of BinaryPredicate
(%3AidenticalTo
"Slot(knows_1)"
"Instance(knows of Cls(PropositionalAttitude))")
(%3ASUO-name "knows"))
([LandArea] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1523)
(disjoint [WaterArea])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-652]))
([LandTransitway] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1538)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-659]))
([Language] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 161)
(disjointDecomposition
[AnimalLanguage]
[HumanLanguage]
[ComputerLanguage])
(%3AisInModule [BASE_ONTOLOGY]))
([larger] of BinaryPredicate
(%3Adocumentation "\"(&%larger ?OBJ1 ?OBJ2) simply means that ?OBJ1 is larger, with respect to all &%LengthMeasures, than ?OBJ2.\"")
(%3AidenticalTo
"Instance(larger_1 of Cls(SpatialRelation))"
"Slot(larger_4)"
"Instance(larger_3 of Cls(IrreflexiveRelation))"
"Instance(larger_2 of Cls(TransitiveRelation))")
(%3ASUO-name "larger"))
([larger_1] of SpatialRelation
(%3AidenticalTo
"Instance(larger of Cls(BinaryPredicate))"
"Slot(larger_4)"
"Instance(larger_3 of Cls(IrreflexiveRelation))"
"Instance(larger_2 of Cls(TransitiveRelation))")
(%3Adocumentation "\"(&%larger ?OBJ1 ?OBJ2) simply means that ?OBJ1 is larger, with respect to all &%LengthMeasures, than ?OBJ2.\"")
(%3ASUO-name "larger"))
([larger_2] of TransitiveRelation
(%3Adocumentation "\"(&%larger ?OBJ1 ?OBJ2) simply means that ?OBJ1 is larger, with respect to all &%LengthMeasures, than ?OBJ2.\"")
(%3AidenticalTo
"Instance(larger of Cls(BinaryPredicate))"
"Instance(larger_1 of Cls(SpatialRelation))"
"Slot(larger_4)"
"Instance(larger_3 of Cls(IrreflexiveRelation))")
(%3ASUO-name "larger"))
([larger_3] of IrreflexiveRelation
(%3Adocumentation "\"(&%larger ?OBJ1 ?OBJ2) simply means that ?OBJ1 is larger, with respect to all &%LengthMeasures, than ?OBJ2.\"")
(%3AidenticalTo
"Instance(larger of Cls(BinaryPredicate))"
"Instance(larger_1 of Cls(SpatialRelation))"
"Slot(larger_4)"
"Instance(larger_2 of Cls(TransitiveRelation))")
(%3ASUO-name "larger"))
([larger_4] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 842)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(larger of Cls(BinaryPredicate))"
"Instance(larger_1 of Cls(SpatialRelation))"
"Instance(larger_3 of Cls(IrreflexiveRelation))"
"Instance(larger_2 of Cls(TransitiveRelation))")
(%3AAXIOMS "\n(UAX-317)\n(=>\n (larger ?OBJ1 ?OBJ2)\n (forall (?QUANT1 ?QUANT2)\n (=>\n (and\n (measure ?OBJ1 (MeasureFn ?QUANT1 LengthMeasure))\n (measure ?OBJ2 (MeasureFn ?QUANT2 LengthMeasure)))\n (greaterThan ?QUANT1 ?QUANT2))))\n")
(%3ASUO-name "larger"))
([Larval] of DevelopmentalAttribute
(contraryAttribute_2 [Embryonic])
(%3Adocumentation "\"Form of most &%Invertebrates, &%Amphibians, and &%Fish immediately after they hatch. This form is fundamentally unlike the adult form, and metamorphosis is required to reach the latter form.\"")
(%3AAXIOMS "\n(UAX-869)\n(=>\n (holdsDuring ?TIME (attribute ?ORG Larval))\n (holdsDuring (PastFn ?TIME) (exists (?BIRTH) (and (instance ?BIRTH Birth) (experiencer ?BIRTH ?ORG)))))\n")
(%3ASUO-name "Larval"))
([Law] of DeonticAttribute
(%3Adocumentation "\"&%Attribute that applies to &%Propositions that an &%Agent is required, by some authority, to make true.\""))
([leader] of BinaryPredicate
(%3Adocumentation "\"(&%leader ?ORGANIZATION ?PERSON) means that the leader of ?ORGANIZATION is ?PERSON.\"")
(%3AidenticalTo
"Instance(leader_1 of Cls(AsymmetricRelation))"
"Slot(leader_3)"
"Instance(leader_2 of Cls(SingleValuedRelation))")
(%3ASUO-name "leader"))
([leader_1] of AsymmetricRelation
(%3Adocumentation "\"(&%leader ?ORGANIZATION ?PERSON) means that the leader of ?ORGANIZATION is ?PERSON.\"")
(%3AidenticalTo
"Instance(leader of Cls(BinaryPredicate))"
"Slot(leader_3)"
"Instance(leader_2 of Cls(SingleValuedRelation))")
(%3ASUO-name "leader"))
([leader_2] of SingleValuedRelation
(%3AidenticalTo
"Instance(leader of Cls(BinaryPredicate))"
"Instance(leader_1 of Cls(AsymmetricRelation))"
"Slot(leader_3)")
(%3Adocumentation "\"(&%leader ?ORGANIZATION ?PERSON) means that the leader of ?ORGANIZATION is ?PERSON.\"")
(%3ASUO-name "leader"))
([leader_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 181)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(leader of Cls(BinaryPredicate))"
"Instance(leader_1 of Cls(AsymmetricRelation))"
"Instance(leader_2 of Cls(SingleValuedRelation))")
(%3ASUO-name "leader"))
([LeapYear] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 938)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS [UAX-368]))
([Learning] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1289)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-541]
[UAX-542]))
([LeastCommonMultipleFn] of Function
(%3Adocumentation "\"(&%LeastCommonMultipleFn ?NUMBER1 ?NUMBER2 ... ?NUMBER) returns the least common multiple of ?NUMBER1 through ?NUMBER.\"")
(%3AidenticalTo
"Instance(LeastCommonMultipleFn_2 of Cls(VariableArityRelation))"
"Slot(LeastCommonMultipleFn_3)"
"Instance(LeastCommonMultipleFn_1 of Cls(PartialValuedRelation))")
(%3ASUO-name "LeastCommonMultipleFn"))
([LeastCommonMultipleFn_1] of PartialValuedRelation
(%3AidenticalTo
"Instance(LeastCommonMultipleFn_2 of Cls(VariableArityRelation))"
"Slot(LeastCommonMultipleFn_3)"
"Instance(LeastCommonMultipleFn of Cls(Function))")
(%3Adocumentation "\"(&%LeastCommonMultipleFn ?NUMBER1 ?NUMBER2 ... ?NUMBER) returns the least common multiple of ?NUMBER1 through ?NUMBER.\"")
(%3ASUO-name "LeastCommonMultipleFn"))
([LeastCommonMultipleFn_2] of VariableArityRelation
(%3AidenticalTo
"Slot(LeastCommonMultipleFn_3)"
"Instance(LeastCommonMultipleFn of Cls(Function))"
"Instance(LeastCommonMultipleFn_1 of Cls(PartialValuedRelation))")
(%3Adocumentation "\"(&%LeastCommonMultipleFn ?NUMBER1 ?NUMBER2 ... ?NUMBER) returns the least common multiple of ?NUMBER1 through ?NUMBER.\"")
(%3ASUO-name "LeastCommonMultipleFn"))
([LeastCommonMultipleFn_3] of %3AVariableAritySlot
(%3ALOAD-SEQUENCE 506)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(LeastCommonMultipleFn_2 of Cls(VariableArityRelation))"
"Instance(LeastCommonMultipleFn of Cls(Function))"
"Instance(LeastCommonMultipleFn_1 of Cls(PartialValuedRelation))")
(%3AAXIOMS "\n(UAX-201)\n(=>\n (equal (LeastCommonMultipleFn @ROW) ?NUMBER)\n (forall (?ELEMENT)\n (=>\n (inList ?ELEMENT (ListFn @ROW))\n (equal (RemainderFn ?NUMBER ?ELEMENT) 0))))\n\n(UAX-202)\n(=>\n (equal (LeastCommonMultipleFn @ROW) ?NUMBER)\n (not (exists (?LESS)\n (and\n (lessThan ?LESS ?NUMBER)\n (forall (?ELEMENT)\n (=>\n (inList ?ELEMENT (ListFn @ROW))\n (equal (RemainderFn ?LESS ?ELEMENT) 0)))))))\n")
(%3ASUO-name "LeastCommonMultipleFn"))
([LeavingAnOrganization] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1164)
(disjoint [JoiningAnOrganization])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-488]))
([Left] of PositionalAttribute
(contraryAttribute_2 [Right])
(%3Adocumentation "\"This &%PositionalAttribute is derived from the left/right schema. Note that this means directly to the left, so that, if one object is to the left of another, then the projections of the two objects overlap.\"")
(%3ASUO-name "Left"))
([LegalAction] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1456)
(%3AisInModule [PROCESSES]))
([LegalDecision] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1301)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-547]
[UAX-548]))
([legalRelation] of BinaryPredicate
(%3Adocumentation "\"(&%legalRelation ?AGENT1 ?AGENT2) means there is a relationship involving legal obligations between ?AGENT1 and ?AGENT2. Some examples include marriage, adoption, etc.\"")
(%3AidenticalTo
"Instance(legalRelation_1 of Cls(SymmetricRelation))"
"Slot(legalRelation_2)")
(%3ASUO-name "legalRelation"))
([legalRelation_1] of SymmetricRelation
(%3Adocumentation "\"(&%legalRelation ?AGENT1 ?AGENT2) means there is a relationship involving legal obligations between ?AGENT1 and ?AGENT2. Some examples include marriage, adoption, etc.\"")
(%3AidenticalTo
"Instance(legalRelation of Cls(BinaryPredicate))"
"Slot(legalRelation_2)")
(%3ASUO-name "legalRelation"))
([legalRelation_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1831)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(legalRelation of Cls(BinaryPredicate))"
"Instance(legalRelation_1 of Cls(SymmetricRelation))")
(%3AAXIOMS "\n(UAX-776)\n(=>\n (legalRelation ?AGENT1 ?AGENT2)\n (exists (?DECLARE ?OBLIGATION)\n (and\n (instance ?DECLARE Declaring)\n (confersObligation ?OBLIGATION ?DECLARE ?AGENT1)\n (confersObligation ?OBLIGATION ?DECLARE ?AGENT2))))\n")
(%3ASUO-name "legalRelation"))
([Lending] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1266)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-530]))
([length] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 831)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(length_1 of Cls(BinaryPredicate))")
(%3ASUO-name "length"))
([length_1] of BinaryPredicate
(%3AidenticalTo "Slot(length)")
(%3ASUO-name "length"))
([LengthMeasure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 645)
(%3AisInModule [UNITS_OF_MEASURE]))
([lessThan] of BinaryPredicate
(%3Adocumentation "\"(&%lessThan ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is less than the &%Quantity ?NUMBER2.\"")
(%3AidenticalTo
"Slot(lessThan_4)"
"Instance(lessThan_1 of Cls(TransitiveRelation))"
"Instance(lessThan_2 of Cls(IrreflexiveRelation))"
"Instance(lessThan_3 of Cls(RelationExtendedToQuantities))")
(%3ASUO-name "lessThan"))
([lessThan_1] of TransitiveRelation
(%3Adocumentation "\"(&%lessThan ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is less than the &%Quantity ?NUMBER2.\"")
(%3AidenticalTo
"Slot(lessThan_4)"
"Instance(lessThan of Cls(BinaryPredicate))"
"Instance(lessThan_2 of Cls(IrreflexiveRelation))"
"Instance(lessThan_3 of Cls(RelationExtendedToQuantities))")
(%3ASUO-name "lessThan"))
([lessThan_2] of IrreflexiveRelation
(%3Adocumentation "\"(&%lessThan ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is less than the &%Quantity ?NUMBER2.\"")
(%3AidenticalTo
"Slot(lessThan_4)"
"Instance(lessThan_1 of Cls(TransitiveRelation))"
"Instance(lessThan of Cls(BinaryPredicate))"
"Instance(lessThan_3 of Cls(RelationExtendedToQuantities))")
(%3ASUO-name "lessThan"))
([lessThan_3] of RelationExtendedToQuantities
(%3AidenticalTo
"Slot(lessThan_4)"
"Instance(lessThan_1 of Cls(TransitiveRelation))"
"Instance(lessThan of Cls(BinaryPredicate))"
"Instance(lessThan_2 of Cls(IrreflexiveRelation))")
(%3Adocumentation "\"(&%lessThan ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is less than the &%Quantity ?NUMBER2.\"")
(%3ASUO-name "lessThan"))
([lessThan_4] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 201)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(lessThan_1 of Cls(TransitiveRelation))"
"Instance(lessThan of Cls(BinaryPredicate))"
"Instance(lessThan_2 of Cls(IrreflexiveRelation))"
"Instance(lessThan_3 of Cls(RelationExtendedToQuantities))")
(%3ASUO-name "lessThan"))
([lessThanOrEqualTo] of BinaryPredicate
(%3Adocumentation "\"(&%lessThanOrEqualTo ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is less than or equal to the &%Quantity ?NUMBER2.\"")
(%3AidenticalTo
"Instance(lessThanOrEqualTo_2 of Cls(RelationExtendedToQuantities))"
"Instance(lessThanOrEqualTo_1 of Cls(PartialOrderingRelation))"
"Slot(lessThanOrEqualTo_3)")
(%3ASUO-name "lessThanOrEqualTo"))
([lessThanOrEqualTo_1] of PartialOrderingRelation
(%3Adocumentation "\"(&%lessThanOrEqualTo ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is less than or equal to the &%Quantity ?NUMBER2.\"")
(%3AidenticalTo
"Instance(lessThanOrEqualTo_2 of Cls(RelationExtendedToQuantities))"
"Instance(lessThanOrEqualTo of Cls(BinaryPredicate))"
"Slot(lessThanOrEqualTo_3)")
(%3ASUO-name "lessThanOrEqualTo"))
([lessThanOrEqualTo_2] of RelationExtendedToQuantities
(%3AidenticalTo
"Instance(lessThanOrEqualTo_1 of Cls(PartialOrderingRelation))"
"Instance(lessThanOrEqualTo of Cls(BinaryPredicate))"
"Slot(lessThanOrEqualTo_3)")
(%3Adocumentation "\"(&%lessThanOrEqualTo ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is less than or equal to the &%Quantity ?NUMBER2.\"")
(%3ASUO-name "lessThanOrEqualTo"))
([lessThanOrEqualTo_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 203)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(lessThanOrEqualTo_2 of Cls(RelationExtendedToQuantities))"
"Instance(lessThanOrEqualTo_1 of Cls(PartialOrderingRelation))"
"Instance(lessThanOrEqualTo of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-075)\n(<=>\n (lessThanOrEqualTo ?NUMBER1 ?NUMBER2)\n (or\n (equal ?NUMBER1 ?NUMBER2)\n (lessThan ?NUMBER1 ?NUMBER2)))\n")
(%3ASUO-name "lessThanOrEqualTo"))
([Likely] of TruthValue
(contraryAttribute_2 [Unlikely])
(%3Adocumentation "\"The &%TruthValue of being probable, i.e. more likely than not to be &%True.\"")
(%3AAXIOMS "\n(UAX-794)\n(=>\n (property ?FORMULA Likely)\n (greaterThan (ProbabilityFn (true ?FORMULA True)) (ProbabilityFn (true ?FORMULA False))))\n")
(%3ASUO-name "Likely"))
([lineMeasure] of BinaryPredicate
(%3Adocumentation "\"(&%lineMeasure ?LINE ?MEASURE) means that the straight line ?LINE has the &%LengthMeasure of ?MEASURE.\"")
(%3AidenticalTo
"Instance(lineMeasure_1 of Cls(TotalValuedRelation))"
"Slot(lineMeasure_2)")
(%3ASUO-name "lineMeasure"))
([lineMeasure_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(lineMeasure of Cls(BinaryPredicate))"
"Slot(lineMeasure_2)")
(%3Adocumentation "\"(&%lineMeasure ?LINE ?MEASURE) means that the straight line ?LINE has the &%LengthMeasure of ?MEASURE.\"")
(%3ASUO-name "lineMeasure"))
([lineMeasure_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 2039)
(%3AisInModule [QUALITIES])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(lineMeasure_1 of Cls(TotalValuedRelation))"
"Instance(lineMeasure of Cls(BinaryPredicate))")
(%3ASUO-name "lineMeasure"))
([LinguisticCommunication] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1419)
(partition
[Stating]
[Supposing]
[Directing]
[Committing]
[ExpressingInLanguage]
[Declaring])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-605]))
([LinguisticExpression] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 160)
(disjoint [Icon])
(%3AisInModule [BASE_ONTOLOGY]))
([links] of TernaryPredicate
(%3AidenticalTo "Slot(links_1)")
(%3Adocumentation "\"a &%TernaryPredicate that specifies the &%GraphArc connecting two &%GraphNodes.\"")
(%3ASUO-name "links"))
([links_1] of %3ATernarySlot
(%3ALOAD-SEQUENCE 611)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [GRAPH_THEORY])
(%3ADomain2Class GraphNode)
(%3AidenticalTo "Instance(links of Cls(TernaryPredicate))")
(%3AAXIOMS "\n(UAX-252)\n(=>\n (links ?NODE1 ?NODE2 ?ARC)\n (links ?NODE2 ?NODE1 ?ARC))\n")
(%3ASUO-name "links"))
([Liquid] of PhysicalState
(contraryAttribute_2
[Solid]
[Gas])
(%3Adocumentation "\"An &%Object has the &%Attribute of &%Liquid if it has a fixed volume but not a fixed shape.\"")
(%3AAXIOMS "\n(UAX-830)\n(=>\n (instance ?OBJ Solution)\n (attribute ?OBJ Liquid))\n\n(UAX-831)\n(=>\n (and\n (instance ?MOTION LiquidMotion)\n (patient ?MOTION ?OBJ))\n (attribute ?OBJ Liquid))\n")
(%3ASUO-name "Liquid"))
([LiquidMotion] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1213)
(%3AisInModule [PROCESSES]))
([List] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 325)
(disjoint
[Predicate]
[Function])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-116]))
([ListConcatenateFn] of BinaryFunction
(%3AidenticalTo
"Instance(ListConcatenateFn_1 of Cls(TotalValuedRelation))"
"Slot(ListConcatenateFn_2)")
(%3Adocumentation "\"A &%Function that returns the concatenation of the two &%Lists that are given as arguments. For example, the value of (&%ListConcatenateFn (&%ListFn &%Monday &%Tuesday) (&%ListFn &%Wednesday &%Thursday)) would be (&%ListFn &%Monday &%Tuesday &%Wednesday &%Thursday).\"")
(%3ASUO-name "ListConcatenateFn"))
([ListConcatenateFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(ListConcatenateFn of Cls(BinaryFunction))"
"Slot(ListConcatenateFn_2)")
(%3Adocumentation "\"A &%Function that returns the concatenation of the two &%Lists that are given as arguments. For example, the value of (&%ListConcatenateFn (&%ListFn &%Monday &%Tuesday) (&%ListFn &%Wednesday &%Thursday)) would be (&%ListFn &%Monday &%Tuesday &%Wednesday &%Thursday).\"")
(%3ASUO-name "ListConcatenateFn"))
([ListConcatenateFn_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 345)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain2Class List)
(%3AidenticalTo
"Instance(ListConcatenateFn_1 of Cls(TotalValuedRelation))"
"Instance(ListConcatenateFn of Cls(BinaryFunction))")
(%3AAXIOMS "\n(UAX-130)\n(<=>\n (equal ?LIST3 (ListConcatenateFn ?LIST1 ?LIST2))\n (forall (?NUMBER1 ?NUMBER2)\n (=>\n (and\n (lessThanOrEqualTo ?NUMBER1 (ListLengthFn ?LIST1))\n (lessThanOrEqualTo ?NUMBER2 (ListLengthFn ?LIST2))\n (instance ?NUMBER1 PositiveInteger)\n (instance ?NUMBER2 PositiveInteger))\n (and\n (equal (ListOrderFn ?LIST3 ?NUMBER1) (ListOrderFn ?LIST1 ?NUMBER1))\n (equal (ListOrderFn ?LIST3 (AdditionFn (ListLengthFn ?LIST1) ?NUMBER2)) (ListOrderFn ?LIST2 ?NUMBER2))))))\n")
(%3ASUO-name "ListConcatenateFn"))
([Listening] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1478)
(%3AisInModule [PROCESSES]))
([ListFn] of Function
(%3Adocumentation "\"A &%Function that takes any number of arguments and returns the &%List containing those arguments in exactly the same order.\"")
(%3AidenticalTo
"Instance(ListFn_2 of Cls(TotalValuedRelation))"
"Slot(ListFn_3)"
"Instance(ListFn_1 of Cls(VariableArityRelation))")
(%3ASUO-name "ListFn"))
([ListFn_1] of VariableArityRelation
(%3AidenticalTo
"Instance(ListFn_2 of Cls(TotalValuedRelation))"
"Instance(ListFn of Cls(Function))"
"Slot(ListFn_3)")
(%3Adocumentation "\"A &%Function that takes any number of arguments and returns the &%List containing those arguments in exactly the same order.\"")
(%3ASUO-name "ListFn"))
([ListFn_2] of TotalValuedRelation
(%3AidenticalTo
"Instance(ListFn of Cls(Function))"
"Slot(ListFn_3)"
"Instance(ListFn_1 of Cls(VariableArityRelation))")
(%3Adocumentation "\"A &%Function that takes any number of arguments and returns the &%List containing those arguments in exactly the same order.\"")
(%3ASUO-name "ListFn"))
([ListFn_3] of %3AVariableAritySlot
(%3ALOAD-SEQUENCE 331)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(ListFn_2 of Cls(TotalValuedRelation))"
"Instance(ListFn of Cls(Function))"
"Instance(ListFn_1 of Cls(VariableArityRelation))")
(%3AAXIOMS "\n(UAX-119)\n(=>\n (exhaustiveDecomposition ?CLASS @ROW)\n (forall (?OBJ)\n (=>\n (instance ?OBJ ?CLASS)\n (exists (?ITEM)\n (and\n (inList ?ITEM (ListFn @ROW))\n (instance ?OBJ ?ITEM))))))\n\n(UAX-120)\n(=>\n (disjointDecomposition ?CLASS @ROW)\n (forall (?ITEM)\n (=>\n (inList ?ITEM (ListFn @ROW))\n (subclass ?ITEM ?CLASS))))\n\n(UAX-121)\n(=>\n (disjointDecomposition ?CLASS @ROW)\n (forall (?ITEM1 ?ITEM2)\n (=>\n (and\n (inList ?ITEM1 (ListFn @ROW))\n (inList ?ITEM2 (ListFn @ROW))\n (not\n (equal ?ITEM1 ?ITEM2)))\n (disjoint ?ITEM1 ?ITEM2))))\n")
(%3ASUO-name "ListFn"))
([ListLengthFn] of UnaryFunction
(%3Adocumentation "\"A &%Function that takes a &%List as its sole argument and returns the number of items in the &%List. For example, (&%ListLengthFn (&%ListFn &%Monday &%Tuesday &%Wednesday)) would return the value 3.\"")
(%3AidenticalTo
"Instance(ListLengthFn_1 of Cls(TotalValuedRelation))"
"Slot(ListLengthFn_2)")
(%3ASUO-name "ListLengthFn"))
([ListLengthFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(ListLengthFn of Cls(UnaryFunction))"
"Slot(ListLengthFn_2)")
(%3Adocumentation "\"A &%Function that takes a &%List as its sole argument and returns the number of items in the &%List. For example, (&%ListLengthFn (&%ListFn &%Monday &%Tuesday &%Wednesday)) would return the value 3.\"")
(%3ASUO-name "ListLengthFn"))
([ListLengthFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 339)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(ListLengthFn of Cls(UnaryFunction))"
"Instance(ListLengthFn_1 of Cls(TotalValuedRelation))")
(%3AAXIOMS "\n(UAX-125)\n(=>\n (and\n (equal (ListLengthFn ?LIST) ?NUMBER1)\n (instance ?LIST List)\n (instance ?NUMBER1 PositiveInteger))\n (forall (?NUMBER2)\n (<=>\n (exists (?ITEM)\n (and\n (equal (ListOrderFn ?LIST ?NUMBER2) ?ITEM)\n (inList ?ITEM ?LIST)))\n (lessThanOrEqualTo ?NUMBER2 ?NUMBER1))))\n\n(UAX-126)\n(equal (ListLengthFn (ListFn @ROW ?ITEM)) (SuccessorFn (ListLengthFn (ListFn @ROW))))\n\n(UAX-127)\n(equal (ListOrderFn (ListFn @ROW ?ITEM) (ListLengthFn (ListFn @ROW ?ITEM))) ?ITEM)\n\n(UAX-128)\n(=>\n (valence ?REL ?NUMBER)\n (forall (@ROW)\n (=>\n (holds ?REL @ROW)\n (equal (ListLengthFn (ListFn @ROW)) ?NUMBER))))\n\n(UAX-129)\n(=>\n (and\n (equal (ListLengthFn ?LIST1) ?NUMBER)\n (instance ?LIST List)\n (instance ?NUMBER1 PositiveInteger))\n (exists (?LIST2 ?ITEM)\n (and\n (initialList ?LIST1 ?LIST2)\n (equal (SuccessorFn ?NUMBER) (ListLengthFn ?LIST2))\n (equal (ListOrderFn ?LIST2 (SuccessorFn ?NUMBER)) ?ITEM))))\n")
(%3ASUO-name "ListLengthFn"))
([ListOrderFn] of BinaryFunction
(%3AidenticalTo
"Slot(ListOrderFn_2)"
"Instance(ListOrderFn_1 of Cls(PartialValuedRelation))")
(%3Adocumentation "\"(&%ListOrderFn ?LIST ?NUMBER) denotes the item that is in the ?NUMBER position in the &%List ?LIST. For example, (&%ListOrderFn (&%ListFn &%Monday &%Tuesday &%Wednesday) 2) would return the value &%Tuesday.\"")
(%3ASUO-name "ListOrderFn"))
([ListOrderFn_1] of PartialValuedRelation
(%3AidenticalTo
"Slot(ListOrderFn_2)"
"Instance(ListOrderFn of Cls(BinaryFunction))")
(%3Adocumentation "\"(&%ListOrderFn ?LIST ?NUMBER) denotes the item that is in the ?NUMBER position in the &%List ?LIST. For example, (&%ListOrderFn (&%ListFn &%Monday &%Tuesday &%Wednesday) 2) would return the value &%Tuesday.\"")
(%3ASUO-name "ListOrderFn"))
([ListOrderFn_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 335)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain2Class PositiveInteger)
(%3AidenticalTo
"Instance(ListOrderFn of Cls(BinaryFunction))"
"Instance(ListOrderFn_1 of Cls(PartialValuedRelation))")
(%3AAXIOMS "\n(UAX-122)\n(=>\n (and\n (instance ?LIST1 List)\n (instance ?LIST2 List)\n (forall (?NUMBER)\n (equal (ListOrderFn ?LIST1 ?NUMBER) (ListOrderFn ?LIST2 ?NUMBER))))\n (equal ?LIST1 ?LIST2))\n\n(UAX-123)\n(=>\n (and\n (domain ?REL ?NUMBER ?CLASS)\n (holds ?REL @ROW))\n (instance (ListOrderFn (ListFn @ROW) ?NUMBER) ?CLASS))\n\n(UAX-124)\n(=>\n (and\n (domainSubclass ?REL ?NUMBER ?CLASS)\n (holds ?REL @ROW))\n (subclass (ListOrderFn (ListFn @ROW) ?NUMBER) ?CLASS))\n")
(%3ASUO-name "ListOrderFn"))
([Liter] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 699)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Liter_1 of Cls(UnitOfMeasure))"))
([Liter_1] of UnitOfMeasure
(%3AidenticalTo "Cls(Liter)")
(%3Adocumentation "Unit of volume in the metric system. It is currently defined to be equal to one cubic decimeter (0.001 cubic meter). Symbol: l."))
([Living] of AnimacyAttribute
(contraryAttribute_2 [Dead_1])
(%3Adocumentation "\"This &%Attribute applies to &%Organisms that are alive.\"")
(%3AAXIOMS "\n(UAX-861)\n(=>\n (and\n (instance ?ORGANISM Organism)\n (agent ?PROCESS ?ORGANISM))\n (holdsDuring (WhenFn ?PROCESS) (attribute ?ORGANISM Living)))\n")
(%3ASUO-name "Living"))
([located] of AntisymmetricRelation
(%3Adocumentation "\"(&%located ?PHYS ?OBJ) means that ?PHYS is &%partlyLocated at ?OBJ, and there is no &%part or &%subProcess of ?PHYS that is not &%located at ?OBJ.\"")
(%3AidenticalTo
"Instance(located_1 of Cls(TransitiveRelation))"
"Instance(located_4 of Cls(SpatialRelation))"
"Slot(located_2)"
"Instance(located_3 of Cls(BinaryPredicate))")
(%3ASUO-name "located"))
([located_1] of TransitiveRelation
(%3Adocumentation "\"(&%located ?PHYS ?OBJ) means that ?PHYS is &%partlyLocated at ?OBJ, and there is no &%part or &%subProcess of ?PHYS that is not &%located at ?OBJ.\"")
(%3AidenticalTo
"Instance(located_4 of Cls(SpatialRelation))"
"Slot(located_2)"
"Instance(located_3 of Cls(BinaryPredicate))"
"Instance(located of Cls(AntisymmetricRelation))")
(%3ASUO-name "located"))
([located_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 432)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(located_1 of Cls(TransitiveRelation))"
"Instance(located_4 of Cls(SpatialRelation))"
"Instance(located_3 of Cls(BinaryPredicate))"
"Instance(located of Cls(AntisymmetricRelation))")
(%3AAXIOMS "\n(UAX-171)\n(=>\n (located ?OBJ1 ?OBJ2)\n (forall (?SUB)\n (=>\n (part ?SUB ?OBJ1)\n (located ?SUB ?OBJ2))))\n\n(UAX-172)\n(=>\n (located ?PROCESS ?OBJ)\n (forall (?SUB)\n (=>\n (subProcess ?SUB ?PROCESS)\n (located ?SUB ?OBJ))))\n")
(%3ASUO-name "located"))
([located_3] of BinaryPredicate
(%3AidenticalTo
"Instance(located_1 of Cls(TransitiveRelation))"
"Instance(located_4 of Cls(SpatialRelation))"
"Slot(located_2)"
"Instance(located of Cls(AntisymmetricRelation))")
(%3ASUO-name "located"))
([located_4] of SpatialRelation
(%3AidenticalTo
"Instance(located_1 of Cls(TransitiveRelation))"
"Slot(located_2)"
"Instance(located_3 of Cls(BinaryPredicate))"
"Instance(located of Cls(AntisymmetricRelation))")
(%3ASUO-name "located"))
([LogFn] of BinaryFunction
(%3AidenticalTo "Slot(LogFn_1)")
(%3Adocumentation "\"(LogFn ?NUMBER ?INT) returns the logarithm of the &%RealNumber ?NUMBER in the base denoted by the &%Integer ?INT.\"")
(%3ASUO-name "LogFn"))
([LogFn_1] of %3ATernarySlot
(%3ALOAD-SEQUENCE 509)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain2Class PositiveInteger)
(%3AidenticalTo "Instance(LogFn of Cls(BinaryFunction))")
(%3ASUO-name "LogFn"))
([LogicalOperator] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 374)
(%3AisInModule [BASE_ONTOLOGY]))
([Looking] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1471)
(%3AisInModule [PROCESSES]))
([Lumen] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 739)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Lumen_1 of Cls(SystemeInternationalUnit))"))
([Lumen_1] of SystemeInternationalUnit
(%3Adocumentation "SI luminous flux measure. Symbol: lm. It is the amount streaming outward through one solid angle of 1 &%Steradian from a uniform point source having an intensity of one &%Candela. &%Lumen = cd*sr = cd * 1.")
(%3AidenticalTo "Cls(Lumen)"))
([Lux] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 741)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Lux_1 of Cls(SystemeInternationalUnit))"))
([Lux_1] of SystemeInternationalUnit
(%3Adocumentation "SI illuminance measure. Symbol: lx. It is the amount of illumination provided when one &%Lumen is evenly distributed over an area of 1 square &%Meter. This is also equivalent to the illumination that would exist on a surface all points of which are one &%Meter from a point source of one &%Candela. &%Lux = lm/m^2 = m^(-2)*cd.")
(%3AidenticalTo "Cls(Lux)"))
([Machine] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1797)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS
[UAX-760]
[UAX-761]))
([MagnitudeFn] of UnaryFunction
(%3Adocumentation "\"The magnitude of a &%ConstantQuantity is the numeric value for the quantity. In other words, &%MagnitudeFn converts a &%ConstantQuantity with an associated &%UnitOfMeasure into an ordinary &%RealNumber. For example, the magnitude of the &%ConstantQuantity 2 &%Kilometers is the &%RealNumber 2. Note that the magnitude of a quantity in a given unit times that unit is equal to the original quantity.\"")
(%3AidenticalTo "Slot(MagnitudeFn_1)")
(%3ASUO-name "MagnitudeFn"))
([MagnitudeFn_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 676)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(MagnitudeFn of Cls(UnaryFunction))")
(%3AAXIOMS "\n(UAX-276)\n(=>\n (and\n (instance ?NUMBER RealNumber)\n (instance ?UNIT UnitOfMeasure))\n(equal (MagnitudeFn (MeasureFn ?NUMBER ?UNIT)) ?NUMBER))\n")
(%3ASUO-name "MagnitudeFn"))
([Maintaining] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1322)
(relatedInternalConcept "Repairing")
(%3AisInModule [PROCESSES]))
([Making] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1384)
(%3AisInModule [PROCESSES]))
([Male] of SexAttribute
(contraryAttribute_2 [Female])
(%3Adocumentation "\"An &%Attribute indicating that an &%Organism is male in nature.\"")
(%3AAXIOMS "\n(UAX-865)\n(=>\n (instance ?ANIMAL Animal)\n (exists (?ATTR)\n (and\n (instance ?ATTR SexAttribute)\n (attribute ?ANIMAL ?ATTR))))\n\n(UAX-866)\n(=>\n (instance ?MAN Man)\n (attribute ?MAN Male))\n")
(%3ASUO-name "Male"))
([Mammal] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1602)
(disjoint [Bird])
(disjointDecomposition
[AquaticMammal]
[HoofedMammal]
[Marsupial]
[Rodent]
[Primate])
(%3AisInModule [OBJECTS]))
([Man] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1616)
(%3AisInModule [OBJECTS]))
([Managing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1180)
(%3AisInModule [PROCESSES]))
([Maneuver] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1457)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-622]))
([manner] of AsymmetricRelation
(%3Adocumentation "\"(&%manner ?PROCESS ?MANNER) means that the &%Process ?PROCESS is qualified by the &%Attribute ?MANNER. The &%Attributes of &%Processes are usually denoted by adverbs and include things like the speed of the wind, the style of a dance, or the intensity of a sports competition.\"")
(%3AidenticalTo
"Slot(manner_2)"
"Instance(manner_3 of Cls(BinaryPredicate))"
"Instance(manner_1 of Cls(IrreflexiveRelation))")
(%3ASUO-name "manner"))
([manner_1] of IrreflexiveRelation
(%3Adocumentation "\"(&%manner ?PROCESS ?MANNER) means that the &%Process ?PROCESS is qualified by the &%Attribute ?MANNER. The &%Attributes of &%Processes are usually denoted by adverbs and include things like the speed of the wind, the style of a dance, or the intensity of a sports competition.\"")
(%3AidenticalTo
"Slot(manner_2)"
"Instance(manner of Cls(AsymmetricRelation))"
"Instance(manner_3 of Cls(BinaryPredicate))")
(%3ASUO-name "manner"))
([manner_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 192)
(disjointRelation [attribute_2])
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(manner of Cls(AsymmetricRelation))"
"Instance(manner_3 of Cls(BinaryPredicate))"
"Instance(manner_1 of Cls(IrreflexiveRelation))")
(%3ASUO-name "manner"))
([manner_3] of BinaryPredicate
(%3AidenticalTo
"Slot(manner_2)"
"Instance(manner of Cls(AsymmetricRelation))"
"Instance(manner_1 of Cls(IrreflexiveRelation))")
(%3ASUO-name "manner"))
([ManualHumanLanguage] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 172)
(disjoint [SpokenHumanLanguage])
(%3AisInModule [BASE_ONTOLOGY]))
([Manufacture] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1387)
(%3AisInModule [PROCESSES]))
([Manufacturer] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1813)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-767]))
([March] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 948)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS
[UAX-374]
[UAX-375]))
([Marsupial] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1605)
(disjoint
[AquaticMammal]
[HoofedMammal]
[Rodent]
[Primate])
(%3AisInModule [OBJECTS]))
([MassMeasure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 646)
(%3AisInModule [UNITS_OF_MEASURE]))
([material] of BinaryPredicate
(%3Adocumentation "\"(&%material ?SUBSTANCE ?OBJECT) means that ?OBJECT is structurally made up in part of ?SUBSTANCE. This relation encompasses the concepts of 'composed of', 'made of', and 'formed of'. For example, plastic is a &%material of my computer monitor. Compare &%part and its subrelations, viz &%component and &%piece.\"")
(%3AidenticalTo "Slot(material_1)")
(%3ASUO-name "material"))
([material_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 120)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Class)
(%3AidenticalTo "Instance(material of Cls(BinaryPredicate))")
(%3ASUO-name "material"))
([Matriculation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1168)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-490]))
([MaxFn] of BinaryFunction
(%3AidenticalTo
"Instance(MaxFn_2 of Cls(CommutativeFunction))"
"Instance(MaxFn_3 of Cls(RelationExtendedToQuantities))"
"Instance(MaxFn_4 of Cls(TotalValuedRelation))"
"Slot(MaxFn_5)"
"Instance(MaxFn_1 of Cls(AssociativeFunction))")
(%3Adocumentation "\"(&%MaxFn ?NUMBER1 ?NUMBER2) is the largest of ?NUMBER1 and ?NUMBER2. In cases where ?NUMBER1 is equal to ?NUMBER2, &%MaxFn returns one of its arguments.\"")
(%3ASUO-name "MaxFn"))
([MaxFn_1] of AssociativeFunction
(%3Adocumentation "\"(&%MaxFn ?NUMBER1 ?NUMBER2) is the largest of ?NUMBER1 and ?NUMBER2. In cases where ?NUMBER1 is equal to ?NUMBER2, &%MaxFn returns one of its arguments.\"")
(%3AidenticalTo
"Instance(MaxFn_2 of Cls(CommutativeFunction))"
"Instance(MaxFn_3 of Cls(RelationExtendedToQuantities))"
"Instance(MaxFn_4 of Cls(TotalValuedRelation))"
"Slot(MaxFn_5)"
"Instance(MaxFn of Cls(BinaryFunction))")
(%3ASUO-name "MaxFn"))
([MaxFn_2] of CommutativeFunction
(%3Adocumentation "\"(&%MaxFn ?NUMBER1 ?NUMBER2) is the largest of ?NUMBER1 and ?NUMBER2. In cases where ?NUMBER1 is equal to ?NUMBER2, &%MaxFn returns one of its arguments.\"")
(%3AidenticalTo
"Instance(MaxFn_3 of Cls(RelationExtendedToQuantities))"
"Instance(MaxFn_4 of Cls(TotalValuedRelation))"
"Slot(MaxFn_5)"
"Instance(MaxFn of Cls(BinaryFunction))"
"Instance(MaxFn_1 of Cls(AssociativeFunction))")
(%3ASUO-name "MaxFn"))
([MaxFn_3] of RelationExtendedToQuantities
(%3AidenticalTo
"Instance(MaxFn_2 of Cls(CommutativeFunction))"
"Instance(MaxFn_4 of Cls(TotalValuedRelation))"
"Slot(MaxFn_5)"
"Instance(MaxFn of Cls(BinaryFunction))"
"Instance(MaxFn_1 of Cls(AssociativeFunction))")
(%3Adocumentation "\"(&%MaxFn ?NUMBER1 ?NUMBER2) is the largest of ?NUMBER1 and ?NUMBER2. In cases where ?NUMBER1 is equal to ?NUMBER2, &%MaxFn returns one of its arguments.\"")
(%3ASUO-name "MaxFn"))
([MaxFn_4] of TotalValuedRelation
(%3AidenticalTo
"Instance(MaxFn_2 of Cls(CommutativeFunction))"
"Instance(MaxFn_3 of Cls(RelationExtendedToQuantities))"
"Slot(MaxFn_5)"
"Instance(MaxFn of Cls(BinaryFunction))"
"Instance(MaxFn_1 of Cls(AssociativeFunction))")
(%3Adocumentation "\"(&%MaxFn ?NUMBER1 ?NUMBER2) is the largest of ?NUMBER1 and ?NUMBER2. In cases where ?NUMBER1 is equal to ?NUMBER2, &%MaxFn returns one of its arguments.\"")
(%3ASUO-name "MaxFn"))
([MaxFn_5] of %3ATernarySlot
(%3ALOAD-SEQUENCE 510)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain2Class Quantity)
(%3AidenticalTo
"Instance(MaxFn_2 of Cls(CommutativeFunction))"
"Instance(MaxFn_3 of Cls(RelationExtendedToQuantities))"
"Instance(MaxFn_4 of Cls(TotalValuedRelation))"
"Instance(MaxFn of Cls(BinaryFunction))"
"Instance(MaxFn_1 of Cls(AssociativeFunction))")
(%3AAXIOMS "\n(UAX-203)\n(=>\n (equal (MaxFn ?NUMBER1 ?NUMBER2) ?NUMBER)\n (or\n (and\n (equal ?NUMBER ?NUMBER1)\n (greaterThan ?NUMBER1 ?NUMBER2))\n (and\n (equal ?NUMBER ?NUMBER2)\n (greaterThan ?NUMBER2 ?NUMBER1))\n (and\n (equal ?NUMBER ?NUMBER1)\n (equal ?NUMBER ?NUMBER2))))\n")
(%3ASUO-name "MaxFn"))
([MaximalWeightedPathFn] of BinaryFunction
(%3AidenticalTo "Slot(MaximalWeightedPathFn_1)")
(%3Adocumentation "\"This &%BinaryFunction assigns two &%GraphNodes to the &%GraphPath with the largest sum of weighted arcs between the two &%GraphNodes.\"")
(%3ASUO-name "MaximalWeightedPathFn"))
([MaximalWeightedPathFn_1] of %3ATernarySlot
(%3ALOAD-SEQUENCE 628)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [GRAPH_THEORY])
(%3ADomain2Class GraphNode)
(%3AidenticalTo "Instance(MaximalWeightedPathFn of Cls(BinaryFunction))")
(%3AAXIOMS "\n(UAX-258)\n(=>\n (equal (MaximalWeightedPathFn ?NODE1 ?NODE2) ?PATH)\n (instance ?PATH (GraphPathFn ?NODE1 ?NODE2)))\n\n(UAX-259)\n(=>\n (and\n (equal (MaximalWeightedPathFn ?NODE1 ?NODE2) ?PATH)\n (equal (PathWeightFn ?PATH) ?NUMBER))\n (forall (?PATH2)\n (=>\n (and\n (instance ?PATH2 (GraphPathFn ?NODE1 ?NODE2))\n (equal (PathWeightFn ?PATH2) ?NUMBER2))\n (lessThanOrEqualTo ?NUMBER2 ?NUMBER1))))\n")
(%3ASUO-name "MaximalWeightedPathFn"))
([May] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 954)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS
[UAX-378]
[UAX-379]))
([measure] of BinaryPredicate
(%3Adocumentation "\"A very general &%Predicate for asserting that a particular &%Object is measured by a particular &%ConstantQuantity. In general, the second argument of this &%Predicate will be an instance of the &%Function &%MeasureFn.\"")
(%3AidenticalTo
"Instance(measure_1 of Cls(AsymmetricRelation))"
"Slot(measure_2)")
(%3ASUO-name "measure"))
([measure_1] of AsymmetricRelation
(%3Adocumentation "\"A very general &%Predicate for asserting that a particular &%Object is measured by a particular &%ConstantQuantity. In general, the second argument of this &%Predicate will be an instance of the &%Function &%MeasureFn.\"")
(%3AidenticalTo
"Instance(measure of Cls(BinaryPredicate))"
"Slot(measure_2)")
(%3ASUO-name "measure"))
([measure_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 829)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(measure of Cls(BinaryPredicate))"
"Instance(measure_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "measure"))
([MeasureFn] of BinaryFunction
(%3AidenticalTo
"Instance(MeasureFn_1 of Cls(TotalValuedRelation))"
"Slot(MeasureFn_2)")
(%3Adocumentation "\"This &%BinaryFunction maps a &%RealNumber and a &%UnitOfMeasure to that &%Number of units. It is used for expressing &%ConstantQuantities. For example, the concept of three meters is represented as (&%MeasureFn 3 &%Meter).\"")
(%3ASUO-name "MeasureFn"))
([MeasureFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(MeasureFn of Cls(BinaryFunction))"
"Slot(MeasureFn_2)")
(%3Adocumentation "\"This &%BinaryFunction maps a &%RealNumber and a &%UnitOfMeasure to that &%Number of units. It is used for expressing &%ConstantQuantities. For example, the concept of three meters is represented as (&%MeasureFn 3 &%Meter).\"")
(%3ASUO-name "MeasureFn"))
([MeasureFn_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 654)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain2Class UnitOfMeasure)
(%3AidenticalTo
"Instance(MeasureFn of Cls(BinaryFunction))"
"Instance(MeasureFn_1 of Cls(TotalValuedRelation))")
(%3AAXIOMS "\n(UAX-264)\n(=>\n (and\n (equal (MeasureFn ?NUMBER ?UNIT) ?QUANT)\n (subclass ?UNIT ?QUANTTYPE))\n (instance ?QUANT ?QUANTTYPE))\n\n(UAX-265)\n(=>\n (and\n (instance ?REL RelationExtendedToQuantities)\n (instance ?REL TernaryRelation)\n (instance ?NUMBER1 RealNumber)\n (instance ?NUMBER2 RealNumber)\n (holds ?REL ?NUMBER1 ?NUMBER2 ?VALUE))\n (forall (?UNIT)\n (=>\n (instance ?UNIT UnitOfMeasure)\n (holds ?REL (MeasureFn ?NUMBER1 ?UNIT) (MeasureFn ?NUMBER2 ?UNIT) (MeasureFn ?VALUE ?UNIT)))))\n\n(UAX-266)\n(=>\n (and\n (instance ?REL RelationExtendedToQuantities)\n (instance ?REL BinaryRelation)\n (instance ?NUMBER1 RealNumber)\n (instance ?NUMBER2 RealNumber)\n (holds ?REL ?NUMBER1 ?NUMBER2))\n (forall (?UNIT)\n (=>\n (instance ?UNIT UnitOfMeasure)\n (holds ?REL (MeasureFn ?NUMBER1 ?UNIT) (MeasureFn ?NUMBER2 ?UNIT)))))\n")
(%3ASUO-name "MeasureFn"))
([Measuring] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1308)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-550]))
([MeasuringDevice] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1790)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-756]))
([Meat] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1647)
(disjoint [Beverage])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-690]))
([Meeting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1442)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-615]
[UAX-616]))
([meetsSpatially] of IrreflexiveRelation
(%3Adocumentation "\"(&%meetsSpatially ?OBJ1 ?OBJ2) means that ?OBJ1 and ?OBJ2 are &%connected but that neither ?OBJ1 nor ?OBJ2 &%overlapsSpatially the other.\"")
(%3AidenticalTo
"Instance(meetsSpatially_3 of Cls(BinaryPredicate))"
"Instance(meetsSpatially_1 of Cls(SymmetricRelation))"
"Slot(meetsSpatially_2)"
"Instance(meetsSpatially_4 of Cls(SpatialRelation))")
(%3ASUO-name "meetsSpatially"))
([meetsSpatially_1] of SymmetricRelation
(%3Adocumentation "\"(&%meetsSpatially ?OBJ1 ?OBJ2) means that ?OBJ1 and ?OBJ2 are &%connected but that neither ?OBJ1 nor ?OBJ2 &%overlapsSpatially the other.\"")
(%3AidenticalTo
"Instance(meetsSpatially_3 of Cls(BinaryPredicate))"
"Slot(meetsSpatially_2)"
"Instance(meetsSpatially of Cls(IrreflexiveRelation))"
"Instance(meetsSpatially_4 of Cls(SpatialRelation))")
(%3ASUO-name "meetsSpatially"))
([meetsSpatially_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1026)
(disjointRelation [overlapsSpatially_2])
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(meetsSpatially_3 of Cls(BinaryPredicate))"
"Instance(meetsSpatially_1 of Cls(SymmetricRelation))"
"Instance(meetsSpatially of Cls(IrreflexiveRelation))"
"Instance(meetsSpatially_4 of Cls(SpatialRelation))")
(%3ASUO-name "meetsSpatially"))
([meetsSpatially_3] of BinaryPredicate
(%3AidenticalTo
"Instance(meetsSpatially_1 of Cls(SymmetricRelation))"
"Slot(meetsSpatially_2)"
"Instance(meetsSpatially of Cls(IrreflexiveRelation))"
"Instance(meetsSpatially_4 of Cls(SpatialRelation))")
(%3ASUO-name "meetsSpatially"))
([meetsSpatially_4] of SpatialRelation
(%3AidenticalTo
"Instance(meetsSpatially_3 of Cls(BinaryPredicate))"
"Instance(meetsSpatially_1 of Cls(SymmetricRelation))"
"Slot(meetsSpatially_2)"
"Instance(meetsSpatially of Cls(IrreflexiveRelation))")
(%3ASUO-name "meetsSpatially"))
([meetsTemporally] of BinaryPredicate
(%3Adocumentation "\"(&%meetsTemporally ?INTERVAL1 ?INTERVAL2) means that the terminal point of the &%TimeInterval ?INTERVAL1 is the initial point of the &%TimeInterval ?INTERVAL2.\"")
(%3AidenticalTo
"Slot(meetsTemporally_4)"
"Instance(meetsTemporally_3 of Cls(IntransitiveRelation))"
"Instance(meetsTemporally_2 of Cls(AsymmetricRelation))"
"Instance(meetsTemporally_1 of Cls(TemporalRelation))")
(%3ASUO-name "meetsTemporally"))
([meetsTemporally_1] of TemporalRelation
(%3AidenticalTo
"Slot(meetsTemporally_4)"
"Instance(meetsTemporally_3 of Cls(IntransitiveRelation))"
"Instance(meetsTemporally_2 of Cls(AsymmetricRelation))"
"Instance(meetsTemporally of Cls(BinaryPredicate))")
(%3Adocumentation "\"(&%meetsTemporally ?INTERVAL1 ?INTERVAL2) means that the terminal point of the &%TimeInterval ?INTERVAL1 is the initial point of the &%TimeInterval ?INTERVAL2.\"")
(%3ASUO-name "meetsTemporally"))
([meetsTemporally_2] of AsymmetricRelation
(%3Adocumentation "\"(&%meetsTemporally ?INTERVAL1 ?INTERVAL2) means that the terminal point of the &%TimeInterval ?INTERVAL1 is the initial point of the &%TimeInterval ?INTERVAL2.\"")
(%3AidenticalTo
"Slot(meetsTemporally_4)"
"Instance(meetsTemporally_3 of Cls(IntransitiveRelation))"
"Instance(meetsTemporally_1 of Cls(TemporalRelation))"
"Instance(meetsTemporally of Cls(BinaryPredicate))")
(%3ASUO-name "meetsTemporally"))
([meetsTemporally_3] of IntransitiveRelation
(%3Adocumentation "\"(&%meetsTemporally ?INTERVAL1 ?INTERVAL2) means that the terminal point of the &%TimeInterval ?INTERVAL1 is the initial point of the &%TimeInterval ?INTERVAL2.\"")
(%3AidenticalTo
"Slot(meetsTemporally_4)"
"Instance(meetsTemporally_2 of Cls(AsymmetricRelation))"
"Instance(meetsTemporally_1 of Cls(TemporalRelation))"
"Instance(meetsTemporally of Cls(BinaryPredicate))")
(%3ASUO-name "meetsTemporally"))
([meetsTemporally_4] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 895)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(meetsTemporally_3 of Cls(IntransitiveRelation))"
"Instance(meetsTemporally_2 of Cls(AsymmetricRelation))"
"Instance(meetsTemporally_1 of Cls(TemporalRelation))"
"Instance(meetsTemporally of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-345)\n(<=>\n (meetsTemporally ?INTERVAL1 ?INTERVAL2)\n (equal\n (EndFn ?INTERVAL1)\n (BeginFn ?INTERVAL2)))\n\n(UAX-346)\n(=>\n (and\n (equal\n (BeginFn ?INTERVAL1)\n (BeginFn ?INTERVAL2))\n (equal\n (EndFn ?INTERVAL1)\n (EndFn ?INTERVAL2)))\n (equal ?INTERVAL1 ?INTERVAL2))\n")
(%3ASUO-name "meetsTemporally"))
([MegaByte] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 826)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-311])
(%3AidenticalTo "Instance(MegaByte_1 of Cls(UnitOfMeasure))"))
([MegaByte_1] of UnitOfMeasure
(%3AidenticalTo "Cls(MegaByte)")
(%3Adocumentation "One &%MegaByte (MB) of information. One &%MegaByte is 1024 &%KiloBytes. Note that this sense of 'mega' is different from the one accepted in the SI system."))
([MegaFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to 1,000,000 units of the original &%UnitOfMeasure. For example, (&%MegaFn &%Hertz) is 1,000,000 &%Hertz.\"")
(%3AidenticalTo
"Slot(MegaFn_2)"
"Instance(MegaFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "MegaFn"))
([MegaFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(MegaFn of Cls(UnaryFunction))"
"Slot(MegaFn_2)")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to 1,000,000 units of the original &%UnitOfMeasure. For example, (&%MegaFn &%Hertz) is 1,000,000 &%Hertz.\"")
(%3ASUO-name "MegaFn"))
([MegaFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 660)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(MegaFn of Cls(UnaryFunction))"
"Instance(MegaFn_1 of Cls(TotalValuedRelation))")
(%3AAXIOMS "\n(UAX-268)\n(=>\n (instance ?UNIT UnitOfMeasure)\n (equal (MegaFn ?UNIT) (MeasureFn 1000000 ?UNIT)))\n")
(%3ASUO-name "MegaFn"))
([Melting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1491)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-638]
[UAX-639]))
([member] of AsymmetricRelation
(%3Adocumentation "\"A specialized common sense notion of part for uniform parts of &%Collections. For example, each sheep in a flock of sheep would have the relationship of member to the flock.\"")
(%3AidenticalTo
"Slot(member_2)"
"Instance(member_1 of Cls(IntransitiveRelation))"
"Instance(member_3 of Cls(SpatialRelation))")
(%3ASUO-name "member"))
([member_1] of IntransitiveRelation
(%3Adocumentation "\"A specialized common sense notion of part for uniform parts of &%Collections. For example, each sheep in a flock of sheep would have the relationship of member to the flock.\"")
(%3AidenticalTo
"Instance(member of Cls(AsymmetricRelation))"
"Slot(member_2)"
"Instance(member_3 of Cls(SpatialRelation))")
(%3ASUO-name "member"))
([member_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 150)
(relatedInternalConcept
"instance"
"element")
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(member of Cls(AsymmetricRelation))"
"Instance(member_1 of Cls(IntransitiveRelation))"
"Instance(member_3 of Cls(SpatialRelation))")
(%3ASUO-name "member"))
([member_3] of SpatialRelation
(%3AidenticalTo
"Instance(member of Cls(AsymmetricRelation))"
"Slot(member_2)"
"Instance(member_1 of Cls(IntransitiveRelation))")
(%3ASUO-name "member"))
([MercantileOrganization] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1815)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-768]))
([MereologicalDifferenceFn] of BinaryFunction
(%3AidenticalTo
"Instance(MereologicalDifferenceFn_1 of Cls(SpatialRelation))"
"Instance(MereologicalDifferenceFn_2 of Cls(TotalValuedRelation))"
"Slot(MereologicalDifferenceFn_3)")
(%3Adocumentation "\"(&%MereologicalDifferenceFn ?OBJ1 ?OBJ2) denotes the &%Object consisting of the parts which belong to ?OBJ1 and not to ?OBJ2.\"")
(%3ASUO-name "MereologicalDifferenceFn"))
([MereologicalDifferenceFn_1] of SpatialRelation
(%3AidenticalTo
"Instance(MereologicalDifferenceFn_2 of Cls(TotalValuedRelation))"
"Slot(MereologicalDifferenceFn_3)"
"Instance(MereologicalDifferenceFn of Cls(BinaryFunction))")
(%3Adocumentation "\"(&%MereologicalDifferenceFn ?OBJ1 ?OBJ2) denotes the &%Object consisting of the parts which belong to ?OBJ1 and not to ?OBJ2.\"")
(%3ASUO-name "MereologicalDifferenceFn"))
([MereologicalDifferenceFn_2] of TotalValuedRelation
(%3AidenticalTo
"Instance(MereologicalDifferenceFn_1 of Cls(SpatialRelation))"
"Slot(MereologicalDifferenceFn_3)"
"Instance(MereologicalDifferenceFn of Cls(BinaryFunction))")
(%3Adocumentation "\"(&%MereologicalDifferenceFn ?OBJ1 ?OBJ2) denotes the &%Object consisting of the parts which belong to ?OBJ1 and not to ?OBJ2.\"")
(%3ASUO-name "MereologicalDifferenceFn"))
([MereologicalDifferenceFn_3] of %3ATernarySlot
(%3ALOAD-SEQUENCE 1052)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(relatedInternalConcept
"MereologicalSumFn"
"MereologicalProductFn")
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain2Class Object)
(%3AidenticalTo
"Instance(MereologicalDifferenceFn_1 of Cls(SpatialRelation))"
"Instance(MereologicalDifferenceFn_2 of Cls(TotalValuedRelation))"
"Instance(MereologicalDifferenceFn of Cls(BinaryFunction))")
(%3AAXIOMS "\n(UAX-436)\n(=>\n (equal ?OBJ3 (MereologicalDifferenceFn ?OBJ1 ?OBJ2))\n (forall (?PART)\n (<=>\n (part ?PART ?OBJ3)\n (and\n (part ?PART ?OBJ1)\n (not\n (part ?PART ?OBJ2))))))\n")
(%3ASUO-name "MereologicalDifferenceFn"))
([MereologicalProductFn] of BinaryFunction
(%3AidenticalTo
"Instance(MereologicalProductFn_1 of Cls(SpatialRelation))"
"Instance(MereologicalProductFn_2 of Cls(TotalValuedRelation))"
"Slot(MereologicalProductFn_3)")
(%3Adocumentation "\"(&%MereologicalProductFn ?OBJ1 ?OBJ2) denotes the &%Object consisting of the parts which belong to both ?OBJ1 and ?OBJ2.\"")
(%3ASUO-name "MereologicalProductFn"))
([MereologicalProductFn_1] of SpatialRelation
(%3AidenticalTo
"Instance(MereologicalProductFn of Cls(BinaryFunction))"
"Instance(MereologicalProductFn_2 of Cls(TotalValuedRelation))"
"Slot(MereologicalProductFn_3)")
(%3Adocumentation "\"(&%MereologicalProductFn ?OBJ1 ?OBJ2) denotes the &%Object consisting of the parts which belong to both ?OBJ1 and ?OBJ2.\"")
(%3ASUO-name "MereologicalProductFn"))
([MereologicalProductFn_2] of TotalValuedRelation
(%3AidenticalTo
"Instance(MereologicalProductFn of Cls(BinaryFunction))"
"Instance(MereologicalProductFn_1 of Cls(SpatialRelation))"
"Slot(MereologicalProductFn_3)")
(%3Adocumentation "\"(&%MereologicalProductFn ?OBJ1 ?OBJ2) denotes the &%Object consisting of the parts which belong to both ?OBJ1 and ?OBJ2.\"")
(%3ASUO-name "MereologicalProductFn"))
([MereologicalProductFn_3] of %3ATernarySlot
(%3ALOAD-SEQUENCE 1050)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(relatedInternalConcept
"MereologicalSumFn"
"MereologicalDifferenceFn")
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain2Class Object)
(%3AidenticalTo
"Instance(MereologicalProductFn of Cls(BinaryFunction))"
"Instance(MereologicalProductFn_1 of Cls(SpatialRelation))"
"Instance(MereologicalProductFn_2 of Cls(TotalValuedRelation))")
(%3AAXIOMS "\n(UAX-435)\n(=>\n (equal ?OBJ3 (MereologicalProductFn ?OBJ1 ?OBJ2))\n (forall (?PART)\n (<=>\n (part ?PART ?OBJ3)\n (and\n (part ?PART ?OBJ1)\n (part ?PART ?OBJ2)))))\n")
(%3ASUO-name "MereologicalProductFn"))
([MereologicalSumFn] of BinaryFunction
(%3AidenticalTo
"Instance(MereologicalSumFn_1 of Cls(SpatialRelation))"
"Instance(MereologicalSumFn_2 of Cls(TotalValuedRelation))"
"Slot(MereologicalSumFn_3)")
(%3Adocumentation "\"(&%MereologicalSumFn ?OBJ1 ?OBJ2) denotes the &%Object consisting of the parts which belong to either ?OBJ1 or ?OBJ2.\"")
(%3ASUO-name "MereologicalSumFn"))
([MereologicalSumFn_1] of SpatialRelation
(%3AidenticalTo
"Instance(MereologicalSumFn_2 of Cls(TotalValuedRelation))"
"Instance(MereologicalSumFn of Cls(BinaryFunction))"
"Slot(MereologicalSumFn_3)")
(%3Adocumentation "\"(&%MereologicalSumFn ?OBJ1 ?OBJ2) denotes the &%Object consisting of the parts which belong to either ?OBJ1 or ?OBJ2.\"")
(%3ASUO-name "MereologicalSumFn"))
([MereologicalSumFn_2] of TotalValuedRelation
(%3AidenticalTo
"Instance(MereologicalSumFn_1 of Cls(SpatialRelation))"
"Instance(MereologicalSumFn of Cls(BinaryFunction))"
"Slot(MereologicalSumFn_3)")
(%3Adocumentation "\"(&%MereologicalSumFn ?OBJ1 ?OBJ2) denotes the &%Object consisting of the parts which belong to either ?OBJ1 or ?OBJ2.\"")
(%3ASUO-name "MereologicalSumFn"))
([MereologicalSumFn_3] of %3ATernarySlot
(%3ALOAD-SEQUENCE 1048)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(relatedInternalConcept
"MereologicalProductFn"
"MereologicalDifferenceFn")
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain2Class Object)
(%3AidenticalTo
"Instance(MereologicalSumFn_1 of Cls(SpatialRelation))"
"Instance(MereologicalSumFn_2 of Cls(TotalValuedRelation))"
"Instance(MereologicalSumFn of Cls(BinaryFunction))")
(%3AAXIOMS "\n(UAX-434)\n(=>\n (equal ?OBJ3 (MereologicalSumFn ?OBJ1 ?OBJ2))\n (forall (?PART)\n (<=>\n (part ?PART ?OBJ3)\n (or\n (part ?PART ?OBJ1)\n (part ?PART ?OBJ2)))))\n")
(%3ASUO-name "MereologicalSumFn"))
([MEREOTOPOLOGY] of %3AModule
(%3AStartingBlock 1017)
(%3AinputFile "testin.kif")
(%3ASUO-name "MEREOTOPOLOGY"))
([Metal] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 128)
(%3AisInModule [BASE_ONTOLOGY]))
([Meter] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 686)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Meter_1 of Cls(SystemeInternationalUnit))"))
([Meter_1] of SystemeInternationalUnit
(%3Adocumentation "SI &%LengthMeasure. Symbol: m. It is one of the base units in SI, and it is currently defined as follows: the &%Meter is the length of the path traveled by light in a vacuum during a time interval of 1/299792458 of a &%SecondDuration.")
(%3AidenticalTo "Cls(Meter)"))
([MicroFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to .000001 units of the original &%UnitOfMeasure. For example, (&%MicroFn &%Meter) is .000001 &%Meters.\"")
(%3AidenticalTo
"Instance(MicroFn_1 of Cls(TotalValuedRelation))"
"Slot(MicroFn_2)")
(%3ASUO-name "MicroFn"))
([MicroFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(MicroFn of Cls(UnaryFunction))"
"Slot(MicroFn_2)")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to .000001 units of the original &%UnitOfMeasure. For example, (&%MicroFn &%Meter) is .000001 &%Meters.\"")
(%3ASUO-name "MicroFn"))
([MicroFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 668)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(MicroFn of Cls(UnaryFunction))"
"Instance(MicroFn_1 of Cls(TotalValuedRelation))")
(%3AAXIOMS "\n(UAX-272)\n(=>\n (instance ?UNIT UnitOfMeasure)\n (equal (MicroFn ?UNIT) (MeasureFn 0.000001 ?UNIT)))\n")
(%3ASUO-name "MicroFn"))
([Microorganism] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1579)
(disjoint
[Animal]
[Plant])
(%3AisInModule [OBJECTS]))
([Mile] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 773)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-291])
(%3AidenticalTo "Instance(Mile_1 of Cls(UnitOfMeasure))"))
([Mile_1] of UnitOfMeasure
(%3AidenticalTo "Cls(Mile)")
(%3Adocumentation "English length unit of miles."))
([MilitaryOrganization] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1850)
(%3AisInModule [OBJECTS]))
([MilitaryProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1178)
(%3AisInModule [PROCESSES]))
([MilliFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to .001 units of the original &%UnitOfMeasure. For example, (&%MilliFn &%Ampere) is .001 &%Amperes.\"")
(%3AidenticalTo
"Instance(MilliFn_1 of Cls(TotalValuedRelation))"
"Slot(MilliFn_2)")
(%3ASUO-name "MilliFn"))
([MilliFn_1] of TotalValuedRelation
(%3AidenticalTo
"Slot(MilliFn_2)"
"Instance(MilliFn of Cls(UnaryFunction))")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to .001 units of the original &%UnitOfMeasure. For example, (&%MilliFn &%Ampere) is .001 &%Amperes.\"")
(%3ASUO-name "MilliFn"))
([MilliFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 666)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(MilliFn_1 of Cls(TotalValuedRelation))"
"Instance(MilliFn of Cls(UnaryFunction))")
(%3AAXIOMS "\n(UAX-271)\n(=>\n (instance ?UNIT UnitOfMeasure)\n (equal (MilliFn ?UNIT) (MeasureFn 0.001 ?UNIT)))\n")
(%3ASUO-name "MilliFn"))
([Mineral] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1542)
(%3AisInModule [OBJECTS]))
([MinFn] of BinaryFunction
(%3AidenticalTo
"Instance(MinFn_1 of Cls(AssociativeFunction))"
"Instance(MinFn_2 of Cls(CommutativeFunction))"
"Instance(MinFn_3 of Cls(RelationExtendedToQuantities))"
"Instance(MinFn_4 of Cls(TotalValuedRelation))"
"Slot(MinFn_5)")
(%3Adocumentation "\"(&%MinFn ?NUMBER1 ?NUMBER2) is the smallest of ?NUMBER1 and ?NUMBER2. In cases where ?NUMBER1 is equal to ?NUMBER2, &%MinFn returns one of its arguments.\"")
(%3ASUO-name "MinFn"))
([MinFn_1] of AssociativeFunction
(%3Adocumentation "\"(&%MinFn ?NUMBER1 ?NUMBER2) is the smallest of ?NUMBER1 and ?NUMBER2. In cases where ?NUMBER1 is equal to ?NUMBER2, &%MinFn returns one of its arguments.\"")
(%3AidenticalTo
"Instance(MinFn_2 of Cls(CommutativeFunction))"
"Instance(MinFn_3 of Cls(RelationExtendedToQuantities))"
"Instance(MinFn_4 of Cls(TotalValuedRelation))"
"Slot(MinFn_5)"
"Instance(MinFn of Cls(BinaryFunction))")
(%3ASUO-name "MinFn"))
([MinFn_2] of CommutativeFunction
(%3Adocumentation "\"(&%MinFn ?NUMBER1 ?NUMBER2) is the smallest of ?NUMBER1 and ?NUMBER2. In cases where ?NUMBER1 is equal to ?NUMBER2, &%MinFn returns one of its arguments.\"")
(%3AidenticalTo
"Instance(MinFn_1 of Cls(AssociativeFunction))"
"Instance(MinFn_3 of Cls(RelationExtendedToQuantities))"
"Instance(MinFn_4 of Cls(TotalValuedRelation))"
"Slot(MinFn_5)"
"Instance(MinFn of Cls(BinaryFunction))")
(%3ASUO-name "MinFn"))
([MinFn_3] of RelationExtendedToQuantities
(%3AidenticalTo
"Instance(MinFn_1 of Cls(AssociativeFunction))"
"Instance(MinFn_2 of Cls(CommutativeFunction))"
"Instance(MinFn_4 of Cls(TotalValuedRelation))"
"Slot(MinFn_5)"
"Instance(MinFn of Cls(BinaryFunction))")
(%3Adocumentation "\"(&%MinFn ?NUMBER1 ?NUMBER2) is the smallest of ?NUMBER1 and ?NUMBER2. In cases where ?NUMBER1 is equal to ?NUMBER2, &%MinFn returns one of its arguments.\"")
(%3ASUO-name "MinFn"))
([MinFn_4] of TotalValuedRelation
(%3AidenticalTo
"Instance(MinFn_1 of Cls(AssociativeFunction))"
"Instance(MinFn_2 of Cls(CommutativeFunction))"
"Instance(MinFn_3 of Cls(RelationExtendedToQuantities))"
"Slot(MinFn_5)"
"Instance(MinFn of Cls(BinaryFunction))")
(%3Adocumentation "\"(&%MinFn ?NUMBER1 ?NUMBER2) is the smallest of ?NUMBER1 and ?NUMBER2. In cases where ?NUMBER1 is equal to ?NUMBER2, &%MinFn returns one of its arguments.\"")
(%3ASUO-name "MinFn"))
([MinFn_5] of %3ATernarySlot
(%3ALOAD-SEQUENCE 512)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain2Class Quantity)
(%3AidenticalTo
"Instance(MinFn_1 of Cls(AssociativeFunction))"
"Instance(MinFn_2 of Cls(CommutativeFunction))"
"Instance(MinFn_3 of Cls(RelationExtendedToQuantities))"
"Instance(MinFn_4 of Cls(TotalValuedRelation))"
"Instance(MinFn of Cls(BinaryFunction))")
(%3AAXIOMS "\n(UAX-204)\n(=>\n (equal (MinFn ?NUMBER1 ?NUMBER2) ?NUMBER)\n (or\n (and\n (equal ?NUMBER ?NUMBER1)\n (lessThan ?NUMBER1 ?NUMBER2))\n (and\n (equal ?NUMBER ?NUMBER2)\n (lessThan ?NUMBER2 ?NUMBER1))\n (and\n (equal ?NUMBER ?NUMBER1)\n (equal ?NUMBER ?NUMBER2))))\n")
(%3ASUO-name "MinFn"))
([MinimalCutSetFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that assigns a &%Graph the &%Class of &%GraphPaths which comprise cutsets for the &%Graph and which have the least number of &%GraphArcs.\"")
(%3AidenticalTo "Slot(MinimalCutSetFn_1)")
(%3ASUO-name "MinimalCutSetFn"))
([MinimalCutSetFn_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 634)
(relatedInternalConcept "CutSetFn")
(%3AisInModule [GRAPH_THEORY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(MinimalCutSetFn of Cls(UnaryFunction))")
(%3AAXIOMS "\n(UAX-261)\n(=>\n (instance ?GRAPH Graph)\n (subclass (MinimalCutSetFn ?GRAPH) (CutSetFn ?GRAPH)))\n\n(UAX-262)\n(=>\n (equal (MinimalCutSetFn ?GRAPH) ?PATHCLASS)\n (exists (?NUMBER)\n (forall (?PATH)\n (=>\n (instance ?PATH ?PATHCLASS)\n (pathLength ?PATH ?NUMBER)))))\n\n(UAX-263)\n(not (exists (?PATH1 ?PATH2)\n (and\n (instance ?PATH1 (CutSetFn ?GRAPH))\n (instance ?PATH2 (MinimalCutSetFn ?GRAPH))\n (pathLength ?PATH1 ?NUMBER1)\n (pathLength ?PATH2 ?NUMBER2)\n (lessThan ?NUMBER1 ?NUMBER2))))\n")
(%3ASUO-name "MinimalCutSetFn"))
([MinimalWeightedPathFn] of BinaryFunction
(%3AidenticalTo "Slot(MinimalWeightedPathFn_1)")
(%3Adocumentation "\"This &%BinaryFunction assigns two &%GraphNodes to the &%GraphPath with the smallest sum of weighted arcs between the two &%GraphNodes.\"")
(%3ASUO-name "MinimalWeightedPathFn"))
([MinimalWeightedPathFn_1] of %3ATernarySlot
(%3ALOAD-SEQUENCE 625)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [GRAPH_THEORY])
(%3ADomain2Class GraphNode)
(%3AidenticalTo "Instance(MinimalWeightedPathFn of Cls(BinaryFunction))")
(%3AAXIOMS "\n(UAX-256)\n(=>\n (equal (MinimalWeightedPathFn ?NODE1 ?NODE2) ?PATH)\n (instance ?PATH (GraphPathFn ?NODE1 ?NODE2)))\n\n(UAX-257)\n(=>\n (and\n (equal (MinimalWeightedPathFn ?NODE1 ?NODE2) ?PATH)\n (equal (PathWeightFn ?PATH) ?NUMBER))\n (forall (?PATH2)\n (=>\n (and\n (instance ?PATH2 (GraphPathFn ?NODE1 ?NODE2))\n (equal (PathWeightFn ?PATH2) ?NUMBER2))\n (greaterThanOrEqualTo ?NUMBER2 ?NUMBER1))))\n")
(%3ASUO-name "MinimalWeightedPathFn"))
([Minute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 998)
(relatedInternalConcept
"MinuteFn"
"MinuteDuration")
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS [UAX-404]))
([MinuteDuration] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 753)
(relatedInternalConcept "Minute")
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-283])
(%3AidenticalTo "Instance(MinuteDuration_1 of Cls(UnitOfMeasure))"))
([MinuteDuration_1] of UnitOfMeasure
(%3AidenticalTo "Cls(MinuteDuration)")
(%3Adocumentation "Time unit. 1 minute = 60 seconds. "))
([MinuteFn] of BinaryFunction
(%3AidenticalTo
"Instance(MinuteFn_1 of Cls(TemporalRelation))"
"Slot(MinuteFn_2)")
(%3Adocumentation "\"A &%BinaryFunction that assigns a &%PositiveRealNumber and a subclass of &%Hours to the &%Minutes within each &%Hour corresponding to that &%PositiveRealNumber. For example, (&%MinuteFn 30 (&%HourFn 17 &%Day)) is the &%Class of all 5:30's in the afternoon. For another example, (&%MinuteFn 15 &%Hour) would return the class of all instances of quarter past the hour. For still another example, (&%MinuteFn 15 (&%HourFn 14 (&%DayFn 18 (&%MonthFn 8 (YearFn 1912))))) denotes 15 minutes after 2 PM on the 18th day of August 1912.\"")
(%3ASUO-name "MinuteFn"))
([MinuteFn_1] of TemporalRelation
(%3AidenticalTo
"Instance(MinuteFn of Cls(BinaryFunction))"
"Slot(MinuteFn_2)")
(%3Adocumentation "\"A &%BinaryFunction that assigns a &%PositiveRealNumber and a subclass of &%Hours to the &%Minutes within each &%Hour corresponding to that &%PositiveRealNumber. For example, (&%MinuteFn 30 (&%HourFn 17 &%Day)) is the &%Class of all 5:30's in the afternoon. For another example, (&%MinuteFn 15 &%Hour) would return the class of all instances of quarter past the hour. For still another example, (&%MinuteFn 15 (&%HourFn 14 (&%DayFn 18 (&%MonthFn 8 (YearFn 1912))))) denotes 15 minutes after 2 PM on the 18th day of August 1912.\"")
(%3ASUO-name "MinuteFn"))
([MinuteFn_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 929)
(%3ADomain2Type Class)
(%3ADomain1Type Instance)
(relatedInternalConcept "Minute")
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain2Class Hour)
(%3AidenticalTo
"Instance(MinuteFn_1 of Cls(TemporalRelation))"
"Instance(MinuteFn of Cls(BinaryFunction))")
(%3AAXIOMS "\n(UAX-362)\n(=>\n (instance ?MINUTE (MinuteFn ?NUMBER ?HOUR))\n (lessThan ?NUMBER 60))\n\n(UAX-363)\n(=>\n (and\n (instance ?MINUTE1 (MinuteFn ?NUMBER1 ?HOUR))\n (instance ?MINUTE2 (MinuteFn ?NUMBER2 ?HOUR))\n (equal (SubtractionFn ?NUMBER2 ?NUMBER1) 1))\n (meetsTemporally ?MINUTE1 ?MINUTE2))\n")
(%3ASUO-name "MinuteFn"))
([Mixture] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 140)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS
[UAX-059]
[UAX-060]))
([modalAttribute] of BinaryPredicate
(%3Adocumentation "\"A &%BinaryRelation that is used to state the normative force of a &%Proposition. (&%modalAttribute ?FORMULA ?PROP) means that the &%Proposition expressed by ?FORMULA has the &%NormativeAttribute ?PROP. For example, (&%modalAttribute (&%exists (?ACT ?OBJ) (&%and (&%instance ?ACT &%Giving) (&%agent ?ACT John) (&%patient ?ACT ?OBJ) (&%destination ?ACT Tom))) &%Obligation) means that John is obligated to give Tom something.\"")
(%3AidenticalTo
"Instance(modalAttribute_1 of Cls(AsymmetricRelation))"
"Slot(modalAttribute_3)"
"Instance(modalAttribute_2 of Cls(IrreflexiveRelation))")
(%3ASUO-name "modalAttribute"))
([modalAttribute_1] of AsymmetricRelation
(%3Adocumentation "\"A &%BinaryRelation that is used to state the normative force of a &%Proposition. (&%modalAttribute ?FORMULA ?PROP) means that the &%Proposition expressed by ?FORMULA has the &%NormativeAttribute ?PROP. For example, (&%modalAttribute (&%exists (?ACT ?OBJ) (&%and (&%instance ?ACT &%Giving) (&%agent ?ACT John) (&%patient ?ACT ?OBJ) (&%destination ?ACT Tom))) &%Obligation) means that John is obligated to give Tom something.\"")
(%3AidenticalTo
"Instance(modalAttribute of Cls(BinaryPredicate))"
"Slot(modalAttribute_3)"
"Instance(modalAttribute_2 of Cls(IrreflexiveRelation))")
(%3ASUO-name "modalAttribute"))
([modalAttribute_2] of IrreflexiveRelation
(%3Adocumentation "\"A &%BinaryRelation that is used to state the normative force of a &%Proposition. (&%modalAttribute ?FORMULA ?PROP) means that the &%Proposition expressed by ?FORMULA has the &%NormativeAttribute ?PROP. For example, (&%modalAttribute (&%exists (?ACT ?OBJ) (&%and (&%instance ?ACT &%Giving) (&%agent ?ACT John) (&%patient ?ACT ?OBJ) (&%destination ?ACT Tom))) &%Obligation) means that John is obligated to give Tom something.\"")
(%3AidenticalTo
"Instance(modalAttribute of Cls(BinaryPredicate))"
"Instance(modalAttribute_1 of Cls(AsymmetricRelation))"
"Slot(modalAttribute_3)")
(%3ASUO-name "modalAttribute"))
([modalAttribute_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1946)
(%3AisInModule [QUALITIES])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(modalAttribute of Cls(BinaryPredicate))"
"Instance(modalAttribute_1 of Cls(AsymmetricRelation))"
"Instance(modalAttribute_2 of Cls(IrreflexiveRelation))")
(%3AAXIOMS "\n(UAX-819)\n(=>\n (and\n (modalAttribute ?FORMULA1 ?PROP)\n (entails ?FORMULA1 ?FORMULA2))\n (modalAttribute ?FORMULA2 ?PROP))\n\n(UAX-820)\n(=>\n (modalAttribute ?FORMULA Obligation)\n (exists (?AGENT)\n (holdsObligation ?FORMULA ?AGENT)))\n\n(UAX-821)\n(=>\n (modalAttribute ?FORMULA Permission)\n (exists (?AGENT)\n (holdsRight ?FORMULA ?AGENT)))\n\n(UAX-822)\n(=>\n (holdsRight ?FORMULA ?AGENT)\n (modalAttribute ?FORMULA Possibility))\n\n(UAX-823)\n(=>\n (holdsObligation ?FORMULA ?AGENT)\n (modalAttribute ?FORMULA Obligation))\n")
(%3ASUO-name "modalAttribute"))
([Mole] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 696)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Mole_1 of Cls(SystemeInternationalUnit))"))
([Mole_1] of SystemeInternationalUnit
(%3Adocumentation "SI amount of substance unit. symbol: mol. It is one of the base units in SI. It is defined as follows: the &%Mole is the amount of substance of a system which contains as many elementary entities as there are atoms in 0.012 &%Kilograms of carbon 12. Note that, when this &%UnitOfMeasure is used, the elementary entities must be specified - they may be atoms, molecules, ions, electrons, etc. or groups of such particles.")
(%3AidenticalTo "Cls(Mole)"))
([Molecule] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1748)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-737]))
([Mollusk] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1590)
(disjoint
[Worm]
[Arthropod])
(%3AisInModule [OBJECTS]))
([Monday] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 980)
(%3AisInModule [TEMPORAL_CONCEPTS]))
([monetaryValue] of SingleValuedRelation
(%3AidenticalTo
"Slot(monetaryValue_1)"
"Instance(monetaryValue_2 of Cls(BinaryPredicate))")
(%3Adocumentation "\"A &%BinaryPredicate that associates an &%Object with its value expressed as an instance of &%CurrencyMeasure.\"")
(%3ASUO-name "monetaryValue"))
([monetaryValue_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 845)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(monetaryValue of Cls(SingleValuedRelation))"
"Instance(monetaryValue_2 of Cls(BinaryPredicate))")
(%3ASUO-name "monetaryValue"))
([monetaryValue_2] of BinaryPredicate
(%3AidenticalTo
"Slot(monetaryValue_1)"
"Instance(monetaryValue of Cls(SingleValuedRelation))")
(%3ASUO-name "monetaryValue"))
([Monkey] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1613)
(disjoint
[Ape]
[Hominid])
(%3AisInModule [OBJECTS]))
([Monochromatic] of ColorAttribute
(contraryAttribute_2 [Polychromatic])
(%3Adocumentation "\"An &%Object with this &%Attribute has the same color on every part of its surface.\"")
(%3AAXIOMS "\n(UAX-836)\n(=>\n (and\n (attribute ?OBJ Monochromatic)\n (superficialPart ?PART ?OBJ)\n (attribute ?PART ?COLOR)\n (instance ?COLOR PrimaryColor))\n (forall (?ELEMENT)\n (=>\n (superficialPart ?ELEMENT ?OBJ)\n (attribute ?ELEMENT ?COLOR))))\n\n(UAX-837)\n(=>\n (instance ?OBJ Object)\n (or\n (attribute ?OBJ Monochromatic)\n (attribute ?OBJ Polychromatic)))\n")
(%3ASUO-name "Monochromatic"))
([Month] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 940)
(relatedInternalConcept "MonthFn")
(%3AisInModule [TEMPORAL_CONCEPTS]))
([MonthFn] of BinaryFunction
(%3AidenticalTo
"Instance(MonthFn_1 of Cls(TemporalRelation))"
"Slot(MonthFn_2)")
(%3Adocumentation "\"A &%BinaryFunction that maps a subclass of &%Month and a subclass of &%Year to the class containing the &%Months corresponding to thos &%Years. For example (&%MonthFn &%January (&%YearFn 1912)) is the class containing the eighth &%Month, i.e. August, of the &%Year 1912. For another example, (&%MonthFn &%August &%Year) is equal to &%August, the class of all months of August. Note that this function returns a &%Class as a value. The reason for this is that the related functions, viz. DayFn, HourFn, MinuteFn, and SecondFn, are used to generate both specific &%TimeIntervals and recurrent intervals, and the only way to do this is to make the domains and ranges of these functions classes rather than individuals.\"")
(%3ASUO-name "MonthFn"))
([MonthFn_1] of TemporalRelation
(%3AidenticalTo
"Instance(MonthFn of Cls(BinaryFunction))"
"Slot(MonthFn_2)")
(%3Adocumentation "\"A &%BinaryFunction that maps a subclass of &%Month and a subclass of &%Year to the class containing the &%Months corresponding to thos &%Years. For example (&%MonthFn &%January (&%YearFn 1912)) is the class containing the eighth &%Month, i.e. August, of the &%Year 1912. For another example, (&%MonthFn &%August &%Year) is equal to &%August, the class of all months of August. Note that this function returns a &%Class as a value. The reason for this is that the related functions, viz. DayFn, HourFn, MinuteFn, and SecondFn, are used to generate both specific &%TimeIntervals and recurrent intervals, and the only way to do this is to make the domains and ranges of these functions classes rather than individuals.\"")
(%3ASUO-name "MonthFn"))
([MonthFn_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 922)
(%3ADomain2Type Class)
(%3ADomain1Type Class)
(relatedInternalConcept "Month")
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain2Class Year)
(%3AidenticalTo
"Instance(MonthFn of Cls(BinaryFunction))"
"Instance(MonthFn_1 of Cls(TemporalRelation))")
(%3ASUO-name "MonthFn"))
([Morpheme] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1694)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS
[UAX-709]
[UAX-710]
[UAX-711]))
([Moss] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1576)
(disjoint
[Alga]
[Fern]
[Fungus])
(%3AisInModule [OBJECTS]))
([mother] of SingleValuedRelation
(%3AidenticalTo "Slot(mother_1)")
(%3Adocumentation "\"The general relationship of motherhood. (&%mother ?CHILD ?MOTHER) means that ?MOTHER is the biological mother of ?CHILD.\"")
(%3ASUO-name "mother"))
([mother_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1556)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(mother of Cls(SingleValuedRelation))")
(%3AAXIOMS "\n(UAX-667)\n(=>\n (mother ?CHILD ?MOTHER)\n (attribute ?MOTHER Female))\n")
(%3ASUO-name "mother"))
([Motion] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1194)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-500]
[UAX-501]))
([MotionPicture] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 159)
(%3AisInModule [BASE_ONTOLOGY]))
([MountainTimeZone] of TimeZone
(%3Adocumentation "\"A &%TimeZone that covers much of the Rocky Mountain region of the United States.\"")
(%3AAXIOMS "\n(UAX-812)\n(=>\n (equal (RelativeTimeFn ?TIME1 MountainTimeZone) ?TIME2)\n (equal ?TIME2 (AdditionFn ?TIME1 7)))\n")
(%3ASUO-name "MountainTimeZone"))
([MultiGraph] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 598)
(%3AisInModule [GRAPH_THEORY])
(%3ASLOT-CONSTRAINTS [UAX-245]))
([MultiplicationFn] of BinaryFunction
(%3AidenticalTo
"Instance(MultiplicationFn_4 of Cls(TotalValuedRelation))"
"Instance(MultiplicationFn_2 of Cls(CommutativeFunction))"
"Instance(MultiplicationFn_3 of Cls(RelationExtendedToQuantities))"
"Instance(MultiplicationFn_1 of Cls(AssociativeFunction))"
"Slot(MultiplicationFn_5)")
(%3Adocumentation "\"If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%MultiplicationFn ?NUMBER1 ?NUMBER2) is the arithmetical product of these numbers.\"")
(%3ASUO-name "MultiplicationFn"))
([MultiplicationFn_1] of AssociativeFunction
(%3Adocumentation "\"If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%MultiplicationFn ?NUMBER1 ?NUMBER2) is the arithmetical product of these numbers.\"")
(%3AidenticalTo
"Instance(MultiplicationFn_4 of Cls(TotalValuedRelation))"
"Instance(MultiplicationFn_2 of Cls(CommutativeFunction))"
"Instance(MultiplicationFn_3 of Cls(RelationExtendedToQuantities))"
"Slot(MultiplicationFn_5)"
"Instance(MultiplicationFn of Cls(BinaryFunction))")
(%3ASUO-name "MultiplicationFn"))
([MultiplicationFn_2] of CommutativeFunction
(%3Adocumentation "\"If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%MultiplicationFn ?NUMBER1 ?NUMBER2) is the arithmetical product of these numbers.\"")
(%3AidenticalTo
"Instance(MultiplicationFn_4 of Cls(TotalValuedRelation))"
"Instance(MultiplicationFn_3 of Cls(RelationExtendedToQuantities))"
"Instance(MultiplicationFn_1 of Cls(AssociativeFunction))"
"Slot(MultiplicationFn_5)"
"Instance(MultiplicationFn of Cls(BinaryFunction))")
(%3ASUO-name "MultiplicationFn"))
([MultiplicationFn_3] of RelationExtendedToQuantities
(%3AidenticalTo
"Instance(MultiplicationFn_4 of Cls(TotalValuedRelation))"
"Instance(MultiplicationFn_2 of Cls(CommutativeFunction))"
"Instance(MultiplicationFn_1 of Cls(AssociativeFunction))"
"Slot(MultiplicationFn_5)"
"Instance(MultiplicationFn of Cls(BinaryFunction))")
(%3Adocumentation "\"If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%MultiplicationFn ?NUMBER1 ?NUMBER2) is the arithmetical product of these numbers.\"")
(%3ASUO-name "MultiplicationFn"))
([MultiplicationFn_4] of TotalValuedRelation
(%3AidenticalTo
"Instance(MultiplicationFn_2 of Cls(CommutativeFunction))"
"Instance(MultiplicationFn_3 of Cls(RelationExtendedToQuantities))"
"Instance(MultiplicationFn_1 of Cls(AssociativeFunction))"
"Slot(MultiplicationFn_5)"
"Instance(MultiplicationFn of Cls(BinaryFunction))")
(%3Adocumentation "\"If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%MultiplicationFn ?NUMBER1 ?NUMBER2) is the arithmetical product of these numbers.\"")
(%3ASUO-name "MultiplicationFn"))
([MultiplicationFn_5] of %3ATernarySlot
(%3ALOAD-SEQUENCE 484)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain2Class Quantity)
(%3AidenticalTo
"Instance(MultiplicationFn_4 of Cls(TotalValuedRelation))"
"Instance(MultiplicationFn_2 of Cls(CommutativeFunction))"
"Instance(MultiplicationFn_3 of Cls(RelationExtendedToQuantities))"
"Instance(MultiplicationFn_1 of Cls(AssociativeFunction))"
"Instance(MultiplicationFn of Cls(BinaryFunction))")
(%3ASUO-name "MultiplicationFn"))
([Muscle] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1687)
(disjoint
[Bone]
[FatTissue])
(%3AisInModule [OBJECTS]))
([Music] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1486)
(%3AisInModule [PROCESSES]))
([MusicalInstrument] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1783)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-752]))
([MutuallyDisjointClass] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 579)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3ASLOT-CONSTRAINTS [UAX-237]))
([Myriapod] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1593)
(disjoint
[Arachnid]
[Insect]
[Crustacean])
(%3AisInModule [OBJECTS]))
([NakedPromise] of DeonticAttribute
(contraryAttribute_2 [Contract])
(%3Adocumentation "\"&%Attribute that applies to &%Propositions that an &%Agent is required, by some authority, to make true.\""))
([Name] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core]))
([names] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 456)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(names_1 of Cls(BinaryPredicate))")
(%3ASUO-name "names"))
([names_1] of BinaryPredicate
(%3AidenticalTo "Slot(names)")
(%3ASUO-name "names"))
([Naming] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1438)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-613]))
([NanoFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to .000000001 units of the original &%UnitOfMeasure. For example, (&%MicroFn &%SecondDuration) is .000000001 &%SecondDurations.\"")
(%3AidenticalTo
"Slot(NanoFn_2)"
"Instance(NanoFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "NanoFn"))
([NanoFn_1] of TotalValuedRelation
(%3AidenticalTo
"Slot(NanoFn_2)"
"Instance(NanoFn of Cls(UnaryFunction))")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to .000000001 units of the original &%UnitOfMeasure. For example, (&%MicroFn &%SecondDuration) is .000000001 &%SecondDurations.\"")
(%3ASUO-name "NanoFn"))
([NanoFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 670)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(NanoFn of Cls(UnaryFunction))"
"Instance(NanoFn_1 of Cls(TotalValuedRelation))")
(%3AAXIOMS "\n(UAX-273)\n(=>\n (instance ?UNIT UnitOfMeasure)\n (equal (NanoFn ?UNIT) (MeasureFn 0.000000001 ?UNIT)))\n")
(%3ASUO-name "NanoFn"))
([Nation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1533)
(%3AisInModule [OBJECTS]))
([NaturalLanguage] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 171)
(disjoint [ConstructedLanguage])
(%3AisInModule [BASE_ONTOLOGY]))
([Near] of PositionalAttribute
(%3Adocumentation "\"The relation of common sense adjacency. Note that, if an object is &%Near another object, then the objects are not &%connected.\"")
(%3AAXIOMS "\n(UAX-806)\n(=>\n (orientation ?OBJ1 ?OBJ2 Near)\n (not\n (connected ?OBJ1 ?OBJ2)))\n\n(UAX-807)\n(=>\n (orientation ?OBJ1 ?OBJ2 Near)\n (orientation ?OBJ2 ?OBJ1 Near))\n")
(%3ASUO-name "Near"))
([Necessity] of AlethicAttribute
(%3Adocumentation "\"Attribute that applies to &%Propositions that are necessary, i.e. true in every possible world.\"")
(%3AAXIOMS "\n(UAX-825)\n(<=>\n (modalAttribute ?FORMULA Necessity)\n (not (modalAttribute (not ?FORMULA) Possibility)))\n\n(UAX-826)\n(=>\n (modalAttribute ?FORMULA Necessity)\n (modalAttribute ?FORMULA Possibility))\n")
(%3ASUO-name "Necessity"))
([needs] of ObjectAttitude)
([needs_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 307)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(needs_2 of Cls(BinaryPredicate))"
"Instance(needs of Cls(ObjectAttitude))")
(%3AAXIOMS "\n(UAX-107)\n(=>\n (needs ?AGENT ?OBJECT)\n (wants ?AGENT ?OBJECT))\n")
(%3ASUO-name "needs"))
([needs_2] of BinaryPredicate
(%3AidenticalTo
"Slot(needs_1)"
"Instance(needs of Cls(ObjectAttitude))")
(%3ASUO-name "needs"))
([NegativeInfinity] of TimePoint
(%3Adocumentation "\"The &%TimePoint that is before all other &%TimePoints.\"")
(%3AAXIOMS "\n(UAX-321)\n(=>\n (and\n (instance ?POINT TimePoint)\n (not (equal ?POINT NegativeInfinity)))\n (before NegativeInfinity ?POINT))\n\n(UAX-322)\n(=>\n (and\n (instance ?POINT TimePoint)\n (not (equal ?POINT NegativeInfinity)))\n (exists (?OTHERPOINT)\n (temporallyBetween NegativeInfinity ?OTHERPOINT ?POINT)))\n")
(%3ASUO-name "NegativeInfinity"))
([NegativeInteger] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 223)
(disjoint [NonnegativeInteger])
(%3AisInModule [BASE_ONTOLOGY]))
([NegativeRealNumber] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 216)
(disjoint [NonnegativeRealNumber])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-080]))
([Neutron] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 138)
(%3AisInModule [BASE_ONTOLOGY]))
([Newton] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 710)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Newton_1 of Cls(SystemeInternationalUnit))"))
([Newton_1] of SystemeInternationalUnit
(%3Adocumentation "SI force measure. Symbol: N. It is that force which gives to a mass of 1 kilogram an acceleration of 1 &%Meter per &%SecondDuration. &%Newton = m*kg*s^(-2).")
(%3AidenticalTo "Cls(Newton)"))
([NonFloweringPlant] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1571)
(disjoint [FloweringPlant])
(disjointDecomposition
[Alga]
[Fern]
[Fungus]
[Moss])
(%3AisInModule [OBJECTS]))
([NonFullyFormed] of DevelopmentalAttribute
(contraryAttribute_2 [FullyFormed])
(%3Adocumentation "\"The stage of an &%Organism before it is &%FullyFormed.\"")
(%3AAXIOMS "\n(UAX-868)\n(=>\n (instance ?ORG Organism)\n (exists (?ATTR)\n (and\n (instance ?ATTR DevelopmentalAttribute)\n (attribute ?ORG ?ATTR))))\n")
(%3ASUO-name "NonFullyFormed"))
([NonnegativeInteger] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 222)
(disjoint [NegativeInteger])
(%3AisInModule [BASE_ONTOLOGY]))
([NonnegativeRealNumber] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 212)
(disjoint [NegativeRealNumber])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-078]))
([NonNullSet] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 573)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3ASLOT-CONSTRAINTS [UAX-234]))
([NormativeAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1945)
(%3AisInModule [QUALITIES]))
([North] of DirectionalAttribute
(contraryAttribute_2
[South]
[East]
[West])
(%3Adocumentation "\"The compass direction of &%North.\"")
(%3ASUO-name "North"))
([not] of UnaryRelation
(%3AidenticalTo
"Slot(not_2)"
"Instance(not_1 of Cls(LogicalOperator))")
(%3Adocumentation "\"The truth-functional connective of negation. This relation definition was modified by P. Cassidy November 2003 to specify that 'not' is an instance of UnaryRelation\"")
(%3ASUO-name "not"))
([not_1] of LogicalOperator
(%3AidenticalTo
"Slot(not_2)"
"Instance(not of Cls(UnaryRelation))")
(%3Adocumentation "\"The truth-functional connective of negation. This relation definition was modified by P. Cassidy November 2003 to specify that 'not' is an instance of UnaryRelation\"")
(%3ASUO-name "not"))
([not_2] of %3AUNARY-RELATION
(%3ALOAD-SEQUENCE 87)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3ASUO-name "not"))
([Noun] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1689)
(disjoint
[Verb]
[Adjective]
[Adverb]
[Particle])
(%3AisInModule [OBJECTS]))
([NounPhrase] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1702)
(disjoint
[VerbPhrase]
[PrepositionalPhrase])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS
[UAX-714]
[UAX-715]))
([November] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 972)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS
[UAX-390]
[UAX-391]))
([NullList] of List
(%3Adocumentation "\"The &%List that has no items. The uniqueness of &%NullList follows from the extensionality of &%Lists, i.e. the fact that two &%Lists with the same items in the same order are identical.\"")
(%3AAXIOMS "\n(UAX-118)\n(<=>\n (equal ?LIST NullList)\n (and\n (instance ?LIST List)\n (not\n (exists (?ITEM)\n (inList ?ITEM ?LIST)))))\n")
(%3ASUO-name "NullList"))
([NullSet] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 571)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3ASLOT-CONSTRAINTS [UAX-233]))
([Number] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 200)
(partition
[RealNumber]
[ImaginaryNumber]
[ComplexNumber])
(%3AisInModule [BASE_ONTOLOGY]))
([NumberE] of PositiveRealNumber
(%3Adocumentation "\"&%NumberE is the &%RealNumber that is the base for natural logarithms. It is approximately equal to 2.718282.\"")
(%3ASUO-name "NumberE"))
([NumeratorFn] of UnaryFunction
(%3Adocumentation "\"(&%NumeratorFn ?NUMBER) returns the numerator of the canonical reduced form ?NUMBER.\"")
(%3AidenticalTo
"Instance(NumeratorFn_1 of Cls(TotalValuedRelation))"
"Slot(NumeratorFn_2)")
(%3ASUO-name "NumeratorFn"))
([NumeratorFn_1] of TotalValuedRelation
(%3AidenticalTo
"Slot(NumeratorFn_2)"
"Instance(NumeratorFn of Cls(UnaryFunction))")
(%3Adocumentation "\"(&%NumeratorFn ?NUMBER) returns the numerator of the canonical reduced form ?NUMBER.\"")
(%3ASUO-name "NumeratorFn"))
([NumeratorFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 514)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(NumeratorFn_1 of Cls(TotalValuedRelation))"
"Instance(NumeratorFn of Cls(UnaryFunction))")
(%3ASUO-name "NumeratorFn"))
([NUMERIC_FUNCTIONS] of %3AModule
(%3AStartingBlock 481)
(%3AinputFile "testin.kif")
(%3ASUO-name "NUMERIC_FUNCTIONS"))
([Nutrient] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1621)
(disjointDecomposition
[Protein]
[Carbohydrate]
[Vitamin])
(%3AisInModule [OBJECTS]))
([Object] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 108)
(disjoint [Process])
(%3AisInModule [BASE_ONTOLOGY]))
([ObjectAttitude] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 303)
(disjoint [PropositionalAttitude])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-105])
(%3AidenticalTo "Instance(ObjectAttitude_1 of Cls(InheritableRelation))"))
([ObjectAttitude_1] of InheritableRelation
(%3Adocumentation "\"The &%Class of &%IntentionalRelations where the &%Agent has awareness of an instance of &%Physical.\"")
(%3AidenticalTo "Cls(ObjectAttitude)"))
([ObjectiveNorm] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1953)
(disjoint [SubjectiveAssessmentAttribute])
(%3AisInModule [QUALITIES]))
([OBJECTS] of %3AModule
(%3AStartingBlock 1504)
(%3AinputFile "testin.kif")
(%3ASUO-name "OBJECTS"))
([Obligation] of DeonticAttribute
(%3Adocumentation "\"&%Attribute that applies to &%Propositions that an &%Agent is required, by some authority, to make true.\"")
(%3AAXIOMS "\n(UAX-827)\n(<=>\n (modalAttribute ?FORMULA Obligation)\n (not (modalAttribute (not ?FORMULA) Permission)))\n\n(UAX-828)\n(=>\n (modalAttribute ?FORMULA Obligation)\n (modalAttribute ?FORMULA Permission))\n\n(UAX-829)\n(=>\n (property ?ENTITY Promise)\n (or\n (property ?ENTITY Contract)\n (property ?ENTITY NakedPromise)))\n")
(%3ASUO-name "Obligation"))
([occupiesPosition] of TernaryPredicate
(%3AidenticalTo "Slot(occupiesPosition_1)")
(%3Adocumentation "\"(&%occupiesPosition ?PERSON ?POSITION ?ORG) means that ?PERSON holds the &%Position ?POSITION at &%Organization ?ORG. For example, (&%occupiesPosition &%TomSmith &%ResearchDirector &%AcmeLaboratory) means that &%TomSmith is a research director at Acme Labs.\"")
(%3ASUO-name "occupiesPosition"))
([occupiesPosition_1] of %3ATernarySlot
(%3ALOAD-SEQUENCE 1942)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [QUALITIES])
(%3ADomain2Class Position)
(%3AidenticalTo "Instance(occupiesPosition of Cls(TernaryPredicate))")
(%3AAXIOMS "\n(UAX-817)\n(=>\n (occupiesPosition ?AGENT ?POSITION ?ORG)\n (attribute ?AGENT ?POSITION))\n\n(UAX-818)\n(<=>\n (employs ?ORG ?PERSON)\n (exists (?POSITION)\n (occupiesPosition ?PERSON ?POSITION ?ORG)))\n")
(%3ASUO-name "occupiesPosition"))
([October] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 969)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS
[UAX-388]
[UAX-389]))
([OddInteger] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 220)
(disjoint [EvenInteger])
(%3AisInModule [BASE_ONTOLOGY]))
([Offering] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1433)
(%3AisInModule [PROCESSES]))
([Ohm] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 725)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Ohm_1 of Cls(SystemeInternationalUnit))"))
([Ohm_1] of SystemeInternationalUnit
(%3Adocumentation "SI electric resistance measure. It is the electric resistance between two points of a conductor when a constant difference of potential of 1 &%Volt, applied between these two points, produces in this conductor a current of 1 &%Ampere, this conductor not being the force of any electromotive force. &%Ohm = V/A = m^2*kg*s^(-3)*A^(-2).")
(%3AidenticalTo "Cls(Ohm)"))
([OlfactoryAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1987)
(%3AisInModule [QUALITIES]))
([On] of PositionalAttribute
(%3Adocumentation "\"This is used to assert that an object is on top of another object, and it is derived from the up/down schema and involves contact.\"")
(%3AAXIOMS "\n(UAX-808)\n(=>\n (orientation ?OBJ1 ?OBJ2 On)\n (connected ?OBJ1 ?OBJ2))\n\n(UAX-809)\n(=>\n (orientation ?OBJ1 ?OBJ2 On)\n (located ?OBJ1 ?OBJ2))\n\n(UAX-810)\n(=>\n (orientation ?OBJ1 ?OBJ2 On)\n (not\n (orientation ?OBJ2 ?OBJ1 On)))\n")
(%3ASUO-name "On"))
([OneDimensionalFigure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2010)
(disjoint
[GeometricPoint]
[TwoDimensionalFigure]
[ThreeDimensionalFigure])
(%3AisInModule [QUALITIES]))
([OneToOneFunction] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 359)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-137]))
([OpenTwoDimensionalFigure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2012)
(disjoint [ClosedTwoDimensionalFigure])
(%3AisInModule [QUALITIES]))
([or] of VariableArityRelation
(%3AidenticalTo
"Slot(or_2)"
"Instance(or_1 of Cls(LogicalOperator))")
(%3Adocumentation "\"The truth-functional connective of disjunction.\"")
(%3ASUO-name "or"))
([or_1] of LogicalOperator
(%3AidenticalTo
"Slot(or_2)"
"Instance(or of Cls(VariableArityRelation))")
(%3Adocumentation "\"The truth-functional connective of disjunction.\"")
(%3ASUO-name "or"))
([or_2] of %3AVariableAritySlot
(%3ALOAD-SEQUENCE 84)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(or_1 of Cls(LogicalOperator))"
"Instance(or of Cls(VariableArityRelation))")
(%3ASUO-name "or"))
([Ordering] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1425)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-607]))
([Organ] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1679)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-705]))
([OrganicObject] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1545)
(partition
[Organism]
[AnatomicalStructure])
(%3AisInModule [OBJECTS]))
([Organism] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1546)
(disjoint [AnatomicalStructure])
(partition
[Animal]
[Plant]
[Microorganism])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-661]))
([OrganismProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1116)
(disjoint [OrganOrTissueProcess])
(%3AisInModule [PROCESSES]))
([Organization] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1839)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS
[UAX-778]
[UAX-779]))
([OrganizationalProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1157)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-485]))
([OrganOrTissueProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1141)
(disjoint [OrganismProcess])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-476]))
([orientation] of SpatialRelation
(%3AidenticalTo
"Slot(orientation_2)"
"Instance(orientation_1 of Cls(TernaryPredicate))")
(%3Adocumentation "\"A general &%Predicate for indicating how two &%Objects are oriented with respect to one another. For example, (orientation ?OBJ1 ?OBJ2 North) means that ?OBJ1 is north of ?OBJ2, and (orientation ?OBJ1 ?OBJ2 Vertical) means that ?OBJ1 is positioned vertically with respect to ?OBJ2.\"")
(%3ASUO-name "orientation"))
([orientation_1] of TernaryPredicate
(%3AidenticalTo
"Instance(orientation of Cls(SpatialRelation))"
"Slot(orientation_2)")
(%3Adocumentation "\"A general &%Predicate for indicating how two &%Objects are oriented with respect to one another. For example, (orientation ?OBJ1 ?OBJ2 North) means that ?OBJ1 is north of ?OBJ2, and (orientation ?OBJ1 ?OBJ2 Vertical) means that ?OBJ1 is positioned vertically with respect to ?OBJ2.\"")
(%3ASUO-name "orientation"))
([orientation_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 1881)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [QUALITIES])
(%3ADomain2Class Object)
(%3AidenticalTo
"Instance(orientation of Cls(SpatialRelation))"
"Instance(orientation_1 of Cls(TernaryPredicate))")
(%3AAXIOMS "\n(UAX-790)\n(=>\n (and\n (orientation ?OBJ1 ?OBJ2 ?ATTR1)\n (contraryAttribute @ROW)\n (inList ?ATTR1 (ListFn @ROW))\n (inList ?ATTR2 (ListFn @ROW))\n (not (equal ?ATTR1 ?ATTR2)))\n (not\n (orientation ?OBJ1 ?OBJ2 ?ATTR2)))\n")
(%3ASUO-name "orientation"))
([origin] of CaseRole
(%3Adocumentation "\"(&%origin ?PROCESS ?SOURCE) means that ?SOURCE indicates where the ?Process began. Note that this relation implies that ?SOURCE is present at the beginning of the process, but need not participate throughout the process. For example, the submarine is the &%origin in the following proposition: the missile was launched from a submarine.\"")
(%3AidenticalTo "Slot(origin_1)")
(%3ASUO-name "origin"))
([origin_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 280)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(origin of Cls(CaseRole))")
(%3ASUO-name "origin"))
([Ounce] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 784)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-296])
(%3AidenticalTo "Instance(Ounce_1 of Cls(UnitOfMeasure))"))
([Ounce_1] of UnitOfMeasure
(%3AidenticalTo "Cls(Ounce)")
(%3Adocumentation "English unit of volume equal to 1/8 of a &%Cup."))
([overlapsPartially] of SymmetricRelation
(%3Adocumentation "\"(&%overlapsPartially ?OBJ1 ?OBJ2) means that ?OBJ1 and ?OBJ2 have part(s) in common, but neither ?OBJ1 nor ?OBJ2 is a &%part of the other.\"")
(%3AidenticalTo
"Slot(overlapsPartially_2)"
"Instance(overlapsPartially_1 of Cls(IrreflexiveRelation))")
(%3ASUO-name "overlapsPartially"))
([overlapsPartially_1] of IrreflexiveRelation
(%3Adocumentation "\"(&%overlapsPartially ?OBJ1 ?OBJ2) means that ?OBJ1 and ?OBJ2 have part(s) in common, but neither ?OBJ1 nor ?OBJ2 is a &%part of the other.\"")
(%3AidenticalTo
"Slot(overlapsPartially_2)"
"Instance(overlapsPartially of Cls(SymmetricRelation))")
(%3ASUO-name "overlapsPartially"))
([overlapsPartially_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1031)
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(overlapsPartially_1 of Cls(IrreflexiveRelation))"
"Instance(overlapsPartially of Cls(SymmetricRelation))")
(%3AAXIOMS "\n(UAX-425)\n(<=>\n (overlapsPartially ?OBJ1 ?OBJ2)\n (and\n (not (part ?OBJ1 ?OBJ2))\n (not (part ?OBJ2 ?OBJ1))\n (exists (?OBJ3)\n (and\n (part ?OBJ3 ?OBJ1)\n (part ?OBJ3 ?OBJ2)))))\n")
(%3ASUO-name "overlapsPartially"))
([overlapsSpatially] of ReflexiveRelation
(%3Adocumentation "\"(&%overlapsSpatially ?OBJ1 ?OBJ2) means that the &%Objects ?OBJ1 and ?OBJ2 have some parts in common. This is a reflexive and symmetric (but not transitive) relation.\"")
(%3AidenticalTo
"Instance(overlapsSpatially_1 of Cls(SymmetricRelation))"
"Instance(overlapsSpatially_4 of Cls(SpatialRelation))"
"Instance(overlapsSpatially_3 of Cls(BinaryPredicate))"
"Slot(overlapsSpatially_2)")
(%3ASUO-name "overlapsSpatially"))
([overlapsSpatially_1] of SymmetricRelation
(%3Adocumentation "\"(&%overlapsSpatially ?OBJ1 ?OBJ2) means that the &%Objects ?OBJ1 and ?OBJ2 have some parts in common. This is a reflexive and symmetric (but not transitive) relation.\"")
(%3AidenticalTo
"Instance(overlapsSpatially_4 of Cls(SpatialRelation))"
"Instance(overlapsSpatially_3 of Cls(BinaryPredicate))"
"Instance(overlapsSpatially of Cls(ReflexiveRelation))"
"Slot(overlapsSpatially_2)")
(%3ASUO-name "overlapsSpatially"))
([overlapsSpatially_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1027)
(disjointRelation [meetsSpatially_2])
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(overlapsSpatially_1 of Cls(SymmetricRelation))"
"Instance(overlapsSpatially_4 of Cls(SpatialRelation))"
"Instance(overlapsSpatially_3 of Cls(BinaryPredicate))"
"Instance(overlapsSpatially of Cls(ReflexiveRelation))")
(%3AAXIOMS "\n(UAX-422)\n(<=>\n (overlapsSpatially ?OBJ1 ?OBJ2)\n (exists (?OBJ3)\n (and\n (part ?OBJ3 ?OBJ1)\n (part ?OBJ3 ?OBJ2))))\n\n(UAX-423)\n(=>\n (and\n (member ?OBJ1 ?COLL)\n (member ?OBJ2 ?COLL)\n (not (equal ?OBJ1 ?OBJ2)))\n (not\n (overlapsSpatially ?OBJ1 ?OBJ2)))\n\n(UAX-424)\n(=>\n (and\n (instance ?REL CaseRole)\n (instance ?OBJ Object)\n (holds ?REL ?PROCESS ?OBJ))\n (exists (?TIME)\n (overlapsSpatially (WhereFn ?PROCESS ?TIME) ?OBJ)))\n")
(%3ASUO-name "overlapsSpatially"))
([overlapsSpatially_3] of BinaryPredicate
(%3AidenticalTo
"Instance(overlapsSpatially_1 of Cls(SymmetricRelation))"
"Instance(overlapsSpatially_4 of Cls(SpatialRelation))"
"Instance(overlapsSpatially of Cls(ReflexiveRelation))"
"Slot(overlapsSpatially_2)")
(%3ASUO-name "overlapsSpatially"))
([overlapsSpatially_4] of SpatialRelation
(%3AidenticalTo
"Instance(overlapsSpatially_1 of Cls(SymmetricRelation))"
"Instance(overlapsSpatially_3 of Cls(BinaryPredicate))"
"Instance(overlapsSpatially of Cls(ReflexiveRelation))"
"Slot(overlapsSpatially_2)")
(%3ASUO-name "overlapsSpatially"))
([overlapsTemporally] of BinaryPredicate
(%3Adocumentation "\"(&%overlapsTemporally ?INTERVAL1 ?INTERVAL2) means that the &%TimeIntervals ?INTERVAL1 and ?INTERVAL2 have a &%TimeInterval as a common part.\"")
(%3AidenticalTo
"Instance(overlapsTemporally_1 of Cls(TemporalRelation))"
"Slot(overlapsTemporally_4)"
"Instance(overlapsTemporally_3 of Cls(SymmetricRelation))"
"Instance(overlapsTemporally_2 of Cls(ReflexiveRelation))")
(%3ASUO-name "overlapsTemporally"))
([overlapsTemporally_1] of TemporalRelation
(%3AidenticalTo
"Instance(overlapsTemporally of Cls(BinaryPredicate))"
"Slot(overlapsTemporally_4)"
"Instance(overlapsTemporally_3 of Cls(SymmetricRelation))"
"Instance(overlapsTemporally_2 of Cls(ReflexiveRelation))")
(%3Adocumentation "\"(&%overlapsTemporally ?INTERVAL1 ?INTERVAL2) means that the &%TimeIntervals ?INTERVAL1 and ?INTERVAL2 have a &%TimeInterval as a common part.\"")
(%3ASUO-name "overlapsTemporally"))
([overlapsTemporally_2] of ReflexiveRelation
(%3Adocumentation "\"(&%overlapsTemporally ?INTERVAL1 ?INTERVAL2) means that the &%TimeIntervals ?INTERVAL1 and ?INTERVAL2 have a &%TimeInterval as a common part.\"")
(%3AidenticalTo
"Instance(overlapsTemporally_1 of Cls(TemporalRelation))"
"Instance(overlapsTemporally of Cls(BinaryPredicate))"
"Slot(overlapsTemporally_4)"
"Instance(overlapsTemporally_3 of Cls(SymmetricRelation))")
(%3ASUO-name "overlapsTemporally"))
([overlapsTemporally_3] of SymmetricRelation
(%3Adocumentation "\"(&%overlapsTemporally ?INTERVAL1 ?INTERVAL2) means that the &%TimeIntervals ?INTERVAL1 and ?INTERVAL2 have a &%TimeInterval as a common part.\"")
(%3AidenticalTo
"Instance(overlapsTemporally_1 of Cls(TemporalRelation))"
"Instance(overlapsTemporally of Cls(BinaryPredicate))"
"Slot(overlapsTemporally_4)"
"Instance(overlapsTemporally_2 of Cls(ReflexiveRelation))")
(%3ASUO-name "overlapsTemporally"))
([overlapsTemporally_4] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 890)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(overlapsTemporally_1 of Cls(TemporalRelation))"
"Instance(overlapsTemporally of Cls(BinaryPredicate))"
"Instance(overlapsTemporally_3 of Cls(SymmetricRelation))"
"Instance(overlapsTemporally_2 of Cls(ReflexiveRelation))")
(%3AAXIOMS "\n(UAX-342)\n(<=>\n (overlapsTemporally ?INTERVAL1 ?INTERVAL2)\n (exists (?INTERVAL3)\n (and\n (instance ?INTERVAL3 TimeInterval)\n (temporalPart ?INTERVAL3 ?INTERVAL1)\n (temporalPart ?INTERVAL3 ?INTERVAL2))))\n\n(UAX-343)\n(=>\n (and\n (instance ?REL SpatialRelation)\n (holds ?REL ?OBJ1 ?OBJ2))\n (overlapsTemporally (WhenFn ?OBJ1) (WhenFn ?OBJ2)))\n")
(%3ASUO-name "overlapsTemporally"))
([PacificTimeZone] of TimeZone
(%3Adocumentation "\"A &%TimeZone that covers much of the western part of the United States.\"")
(%3AAXIOMS "\n(UAX-811)\n(=>\n (equal (RelativeTimeFn ?TIME1 PacificTimeZone) ?TIME2)\n (equal ?TIME2 (AdditionFn ?TIME1 8)))\n")
(%3ASUO-name "PacificTimeZone"))
([PairwiseDisjointClass] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 577)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3ASLOT-CONSTRAINTS [UAX-236]))
([parallel] of BinaryPredicate
(%3Adocumentation "\"(&%parallel ?LINE1 ?LINE2) means that the &%OneDimensionalFigures ?LINE1 and ?LINE2 are parallel to one another, i.e. they are equidistant from one another at every point.\"")
(%3AidenticalTo "Slot(parallel_1)")
(%3ASUO-name "parallel"))
([parallel_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 2036)
(%3AisInModule [QUALITIES])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(parallel of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-849)\n(=>\n (parallel ?LINE1 ?LINE2)\n (not (exists (?POINT)\n (pointOfIntersection ?LINE1 ?LINE2 ?POINT))))\n")
(%3ASUO-name "parallel"))
([parent] of BinaryPredicate
(%3Adocumentation "\"The general relationship of parenthood. (&%parent ?CHILD ?PARENT) means that ?PARENT is a biological parent of ?CHILD.\"")
(%3AidenticalTo
"Slot(parent_3)"
"Instance(parent_2 of Cls(IntransitiveRelation))"
"Instance(parent_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "parent"))
([parent_1] of AsymmetricRelation
(%3Adocumentation "\"The general relationship of parenthood. (&%parent ?CHILD ?PARENT) means that ?PARENT is a biological parent of ?CHILD.\"")
(%3AidenticalTo
"Slot(parent_3)"
"Instance(parent_2 of Cls(IntransitiveRelation))"
"Instance(parent of Cls(BinaryPredicate))")
(%3ASUO-name "parent"))
([parent_2] of IntransitiveRelation
(%3Adocumentation "\"The general relationship of parenthood. (&%parent ?CHILD ?PARENT) means that ?PARENT is a biological parent of ?CHILD.\"")
(%3AidenticalTo
"Slot(parent_3)"
"Instance(parent_1 of Cls(AsymmetricRelation))"
"Instance(parent of Cls(BinaryPredicate))")
(%3ASUO-name "parent"))
([parent_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1551)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(parent_2 of Cls(IntransitiveRelation))"
"Instance(parent_1 of Cls(AsymmetricRelation))"
"Instance(parent of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-663)\n(=>\n (parent ?CHILD ?PARENT)\n (before (BeginFn (WhenFn ?PARENT)) (BeginFn (WhenFn ?CHILD))))\n\n(UAX-664)\n(=>\n (and\n (parent ?CHILD ?PARENT)\n (subclass ?CLASS Organism)\n (instance ?PARENT ?CLASS))\n (instance ?CHILD ?CLASS))\n\n(UAX-665)\n(=>\n (parent ?CHILD ?PARENT)\n (or\n (mother ?CHILD ?PARENT)\n (father ?CHILD ?PARENT)))\n\n(UAX-666)\n(=>\n (instance ?ORGANISM Organism)\n (exists (?PARENT)\n (parent ?ORGANISM ?PARENT)))\n")
(%3ASUO-name "parent"))
([part] of SpatialRelation
(%3AidenticalTo
"Instance(part_1 of Cls(PartialOrderingRelation))"
"Slot(part_2)")
(%3Adocumentation "\"The basic mereological relation. All other mereological relations are defined in terms of this one. (&%part ?PART ?WHOLE) simply means that the &%Object ?PART is part of the &%Object ?WHOLE. Note that, since &%part is a &%ReflexiveRelation, every &%Object is a part of itself.\"")
(%3ASUO-name "part"))
([part_1] of PartialOrderingRelation
(%3Adocumentation "\"The basic mereological relation. All other mereological relations are defined in terms of this one. (&%part ?PART ?WHOLE) simply means that the &%Object ?PART is part of the &%Object ?WHOLE. Note that, since &%part is a &%ReflexiveRelation, every &%Object is a part of itself.\"")
(%3AidenticalTo
"Slot(part_2)"
"Instance(part of Cls(SpatialRelation))")
(%3ASUO-name "part"))
([part_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 114)
(disjointRelation [contains_2])
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(part_1 of Cls(PartialOrderingRelation))"
"Instance(part of Cls(SpatialRelation))")
(%3ASUO-name "part"))
([partiallyFills] of SpatialRelation
(%3AidenticalTo
"Instance(partiallyFills_1 of Cls(AsymmetricRelation))"
"Slot(partiallyFills_2)")
(%3Adocumentation "\"(&%partiallyFills ?OBJ ?HOLE) means that ?OBJ &%completelyFills some part of ?HOLE. Note that if (&%partiallyFills ?OBJ1 ?HOLE) and (&%part ?OBJ1 ?OBJ2), then (&%partiallyFills ?OBJ2 ?HOLE). Note too that a partial filler need not be wholly inside a hole (it may stick out), which means that every complete filler also qualifies as (is a limit case of) a partial one.\"")
(%3ASUO-name "partiallyFills"))
([partiallyFills_1] of AsymmetricRelation
(%3Adocumentation "\"(&%partiallyFills ?OBJ ?HOLE) means that ?OBJ &%completelyFills some part of ?HOLE. Note that if (&%partiallyFills ?OBJ1 ?HOLE) and (&%part ?OBJ1 ?OBJ2), then (&%partiallyFills ?OBJ2 ?HOLE). Note too that a partial filler need not be wholly inside a hole (it may stick out), which means that every complete filler also qualifies as (is a limit case of) a partial one.\"")
(%3AidenticalTo
"Instance(partiallyFills of Cls(SpatialRelation))"
"Slot(partiallyFills_2)")
(%3ASUO-name "partiallyFills"))
([partiallyFills_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1082)
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(partiallyFills of Cls(SpatialRelation))"
"Instance(partiallyFills_1 of Cls(AsymmetricRelation))")
(%3AAXIOMS "\n(UAX-450)\n(=>\n (partiallyFills ?OBJ ?HOLE1)\n (exists (?HOLE2)\n (and\n (part ?HOLE2 ?HOLE1)\n (completelyFills ?OBJ ?HOLE2))))\n")
(%3ASUO-name "partiallyFills"))
([partialOrderingOn] of BinaryPredicate
(%3Adocumentation "\"A &%BinaryRelation is a partial ordering on a &%SetOrClass only if the relation is &%reflexiveOn the &%SetOrClass, and it is both an &%AntisymmetricRelation, and a &%TransitiveRelation.\"")
(%3AidenticalTo
"Instance(partialOrderingOn_1 of Cls(AsymmetricRelation))"
"Slot(partialOrderingOn_2)")
(%3ASUO-name "partialOrderingOn"))
([partialOrderingOn_1] of AsymmetricRelation
(%3Adocumentation "\"A &%BinaryRelation is a partial ordering on a &%SetOrClass only if the relation is &%reflexiveOn the &%SetOrClass, and it is both an &%AntisymmetricRelation, and a &%TransitiveRelation.\"")
(%3AidenticalTo
"Instance(partialOrderingOn of Cls(BinaryPredicate))"
"Slot(partialOrderingOn_2)")
(%3ASUO-name "partialOrderingOn"))
([partialOrderingOn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 394)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(partialOrderingOn_1 of Cls(AsymmetricRelation))"
"Instance(partialOrderingOn of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-153)\n(=>\n (partialOrderingOn ?RELATION ?CLASS)\n (and\n (reflexiveOn ?RELATION ?CLASS)\n (instance ?RELATION TransitiveRelation)\n (instance ?RELATION AntisymmetricRelation)))\n")
(%3ASUO-name "partialOrderingOn"))
([PartialOrderingRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 270)
(%3AisInModule [BASE_ONTOLOGY]))
([PartialValuedRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 250)
(disjoint [TotalValuedRelation])
(%3AisInModule [BASE_ONTOLOGY]))
([Particle] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1693)
(disjoint
[Noun]
[Verb]
[Adjective]
[Adverb])
(%3AisInModule [OBJECTS]))
([partition] of %3AVariableAritySlot
(%3ALOAD-SEQUENCE 69)
(relatedInternalConcept "exhaustiveDecomposition")
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(partition_2 of Cls(VariableArityRelation))"
"Instance(partition_1 of Cls(Predicate))")
(%3AAXIOMS "(UAX: SUMAX-39)\n(<=>\n (partition @ROW)\n (and\n (exhaustiveDecomposition @ROW)\n (disjointDecomposition @ROW)))\n(UAX-039)\n(<=>\n (partition @ROW)\n (and\n (exhaustiveDecomposition @ROW)\n (disjointDecomposition @ROW)))\n")
(%3ASUO-name "partition"))
([partition2] of %3AVariableAritySlot
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core])
(%3ADomain1Type Instance)
(%3AAXIOMS "(UAX: SUMAX-39)\n(<=>\n (partition @ROW)\n (and\n (exhaustiveDecomposition @ROW)\n (disjointDecomposition @ROW)))"))
([partition3] of %3AVariableAritySlot
(%3ALOAD-SEQUENCE 0)
(%3AisInModule [KIF-core])
(%3ADomain1Type Instance)
(%3AAXIOMS "(UAX: SUMAX-39)\n(<=>\n (partition @ROW)\n (and\n (exhaustiveDecomposition @ROW)\n (disjointDecomposition @ROW)))"))
([partition_1] of Predicate
(%3AidenticalTo
"Instance(partition_2 of Cls(VariableArityRelation))"
"Slot(partition)")
(%3Adocumentation "\"A &%partition of a class C is a set of mutually &%disjoint classes (a subclass partition) which covers C. Every instance of C is an instance of exactly one of the subclasses in the partition.\"")
(%3ASUO-name "partition"))
([partition_2] of VariableArityRelation
(%3AidenticalTo
"Slot(partition)"
"Instance(partition_1 of Cls(Predicate))")
(%3Adocumentation "\"A &%partition of a class C is a set of mutually &%disjoint classes (a subclass partition) which covers C. Every instance of C is an instance of exactly one of the subclasses in the partition.\"")
(%3ASUO-name "partition"))
([partlyLocated] of SpatialRelation
(%3AidenticalTo
"Instance(partlyLocated_1 of Cls(AntisymmetricRelation))"
"Instance(partlyLocated_2 of Cls(BinaryPredicate))"
"Slot(partlyLocated_3)")
(%3Adocumentation "\"(&%partlyLocated ?THING ?OBJ) means that the instance of &%Physical ?THING is at least partially located at ?OBJ. For example, Istanbul is partly located in Asia and partly located in Europe. Note that &%partlyLocated is the most basic localization relation: &%located is an immediate &%subrelation of &%partlyLocated and &%exactlyLocated is an immediate &%subrelation of &%located.\"")
(%3ASUO-name "partlyLocated"))
([partlyLocated_1] of AntisymmetricRelation
(%3Adocumentation "\"(&%partlyLocated ?THING ?OBJ) means that the instance of &%Physical ?THING is at least partially located at ?OBJ. For example, Istanbul is partly located in Asia and partly located in Europe. Note that &%partlyLocated is the most basic localization relation: &%located is an immediate &%subrelation of &%partlyLocated and &%exactlyLocated is an immediate &%subrelation of &%located.\"")
(%3AidenticalTo
"Instance(partlyLocated_2 of Cls(BinaryPredicate))"
"Instance(partlyLocated of Cls(SpatialRelation))"
"Slot(partlyLocated_3)")
(%3ASUO-name "partlyLocated"))
([partlyLocated_2] of BinaryPredicate
(%3Adocumentation "\"(&%partlyLocated ?THING ?OBJ) means that the instance of &%Physical ?THING is at least partially located at ?OBJ. For example, Istanbul is partly located in Asia and partly located in Europe. Note that &%partlyLocated is the most basic localization relation: &%located is an immediate &%subrelation of &%partlyLocated and &%exactlyLocated is an immediate &%subrelation of &%located.\"")
(%3AidenticalTo
"Instance(partlyLocated_1 of Cls(AntisymmetricRelation))"
"Instance(partlyLocated of Cls(SpatialRelation))"
"Slot(partlyLocated_3)")
(%3ASUO-name "partlyLocated"))
([partlyLocated_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 429)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(partlyLocated_1 of Cls(AntisymmetricRelation))"
"Instance(partlyLocated_2 of Cls(BinaryPredicate))"
"Instance(partlyLocated of Cls(SpatialRelation))")
(%3AAXIOMS "\n(UAX-169)\n(=>\n (and\n (instance ?OBJ1 Object)\n (partlyLocated ?OBJ1 ?OBJ2))\n (overlapsSpatially ?OBJ1 ?OBJ2))\n\n(UAX-170)\n(=>\n (and\n (instance ?OBJ1 Object)\n (partlyLocated ?OBJ1 ?OBJ2))\n (exists (?SUB)\n (and\n (part ?SUB ?OBJ1)\n (located ?SUB ?OBJ2))))\n")
(%3ASUO-name "partlyLocated"))
([Pascal] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 712)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Pascal_1 of Cls(SystemeInternationalUnit))"))
([Pascal_1] of SystemeInternationalUnit
(%3Adocumentation "SI pressure measure. Symbol:Pa. It is the pressure of one &%Newton per square &%Meter. &%Pascal = N/m^2 = m^(-1)*kg*s^(-2).")
(%3AidenticalTo "Cls(Pascal)"))
([PastFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%TimePosition to the &%TimeInterval that meets it and that begins at &%NegativeInfinity.\"")
(%3AidenticalTo
"Instance(PastFn_1 of Cls(TemporalRelation))"
"Instance(PastFn_2 of Cls(TotalValuedRelation))"
"Slot(PastFn_3)")
(%3ASUO-name "PastFn"))
([PastFn_1] of TemporalRelation
(%3AidenticalTo
"Instance(PastFn_2 of Cls(TotalValuedRelation))"
"Instance(PastFn of Cls(UnaryFunction))"
"Slot(PastFn_3)")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%TimePosition to the &%TimeInterval that meets it and that begins at &%NegativeInfinity.\"")
(%3ASUO-name "PastFn"))
([PastFn_2] of TotalValuedRelation
(%3AidenticalTo
"Instance(PastFn_1 of Cls(TemporalRelation))"
"Instance(PastFn of Cls(UnaryFunction))"
"Slot(PastFn_3)")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%TimePosition to the &%TimeInterval that meets it and that begins at &%NegativeInfinity.\"")
(%3ASUO-name "PastFn"))
([PastFn_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 909)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(PastFn_1 of Cls(TemporalRelation))"
"Instance(PastFn_2 of Cls(TotalValuedRelation))"
"Instance(PastFn of Cls(UnaryFunction))")
(%3AAXIOMS "\n(UAX-352)\n(=>\n (instance ?INTERVAL TimeInterval)\n (meetsTemporally (PastFn ?INTERVAL) ?INTERVAL))\n\n(UAX-353)\n(=>\n (instance ?INTERVAL TimeInterval)\n (equal (PastFn ?INTERVAL) (TimeIntervalFn NegativeInfinity (BeginFn ?INTERVAL))))\n")
(%3ASUO-name "PastFn"))
([Patent] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1747)
(%3AisInModule [OBJECTS]))
([path] of CaseRole
(%3Adocumentation "\"(&%path ?MOTION ?PATH) means that ?PATH is a route along which ?MOTION occurs. For example, Highway 101 is the path in the following proposition: the car drove up Highway 101.\"")
(%3AidenticalTo "Slot(path_1)")
(%3ASUO-name "path"))
([path_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1197)
(%3AisInModule [PROCESSES])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(path of Cls(CaseRole))")
(%3AAXIOMS "\n(UAX-502)\n(=>\n (and\n (path ?PROCESS ?PATH1)\n (origin ?PROCESS ?SOURCE)\n (destination ?PROCESS ?DEST)\n (length ?PATH1 ?MEASURE1)\n (distance ?SOURCE ?DEST ?DISTANCE)\n (not (greaterThan ?MEASURE1 ?DISTANCE)))\n (forall (?OBJ)\n (=>\n (part ?OBJ ?PATH1)\n (between ?SOURCE ?OBJ ?DEST))))\n")
(%3ASUO-name "path"))
([pathLength] of BinaryPredicate
(%3Adocumentation "\"A &%BinaryPredicate that specifies the length (in number of &%GraphNodes) of a &%GraphPath. (&%pathLength ?PATH ?NUMBER) means that there are ?NUMBER nodes in the &%GraphPath ?PATH.\"")
(%3AidenticalTo
"Instance(pathLength_1 of Cls(AsymmetricRelation))"
"Instance(pathLength_2 of Cls(IrreflexiveRelation))"
"Slot(pathLength_3)")
(%3ASUO-name "pathLength"))
([pathLength_1] of AsymmetricRelation
(%3Adocumentation "\"A &%BinaryPredicate that specifies the length (in number of &%GraphNodes) of a &%GraphPath. (&%pathLength ?PATH ?NUMBER) means that there are ?NUMBER nodes in the &%GraphPath ?PATH.\"")
(%3AidenticalTo
"Instance(pathLength of Cls(BinaryPredicate))"
"Instance(pathLength_2 of Cls(IrreflexiveRelation))"
"Slot(pathLength_3)")
(%3ASUO-name "pathLength"))
([pathLength_2] of IrreflexiveRelation
(%3Adocumentation "\"A &%BinaryPredicate that specifies the length (in number of &%GraphNodes) of a &%GraphPath. (&%pathLength ?PATH ?NUMBER) means that there are ?NUMBER nodes in the &%GraphPath ?PATH.\"")
(%3AidenticalTo
"Instance(pathLength of Cls(BinaryPredicate))"
"Instance(pathLength_1 of Cls(AsymmetricRelation))"
"Slot(pathLength_3)")
(%3ASUO-name "pathLength"))
([pathLength_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 616)
(%3AisInModule [GRAPH_THEORY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(pathLength of Cls(BinaryPredicate))"
"Instance(pathLength_1 of Cls(AsymmetricRelation))"
"Instance(pathLength_2 of Cls(IrreflexiveRelation))")
(%3ASUO-name "pathLength"))
([PathologicProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1143)
(disjoint [PhysiologicProcess])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-477]))
([PathWeightFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%GraphPath to the sum of the &%arcWeights on the &%GraphArcs in the &%GraphPath.\"")
(%3AidenticalTo "Slot(PathWeightFn_1)")
(%3ASUO-name "PathWeightFn"))
([PathWeightFn_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 622)
(%3AisInModule [GRAPH_THEORY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(PathWeightFn of Cls(UnaryFunction))")
(%3AAXIOMS "\n(UAX-254)\n(=>\n (and\n (equal (PathWeightFn ?PATH) ?SUM)\n (subGraph ?SUBPATH ?PATH)\n (graphPart ?ARC1 ?PATH)\n (arcWeight ?ARC1 ?NUMBER1)\n (forall (?ARC2)\n (=>\n (graphPart ?ARC2 ?PATH)\n (or\n (graphPart ?ARC2 ?SUBPATH)\n (equal ?ARC2 ?ARC1)))))\n (equal ?SUM (AdditionFn (PathWeightFn ?SUBPATH) ?NUMBER1)))\n\n(UAX-255)\n(=>\n (and\n (equal (PathWeightFn ?PATH) ?SUM)\n (graphPart ?ARC1 ?PATH)\n (graphPart ?ARC2 ?PATH)\n (arcWeight ?ARC1 ?NUMBER1)\n (arcWeight ?ARC2 ?NUMBER2)\n (forall (?ARC3)\n (=>\n (graphPart ?ARC3 ?PATH)\n (or\n (equal ?ARC3 ?ARC1)\n (equal ?ARC3 ?ARC2)))))\n (equal (PathWeightFn ?PATH) (AdditionFn ?NUMBER1 ?NUMBER2)))\n")
(%3ASUO-name "PathWeightFn"))
([patient] of CaseRole
(%3Adocumentation "\"(&%patient ?PROCESS ?ENTITY) means that ?ENTITY is a participant in ?PROCESS that may be moved, said, experienced, etc. For example, the direct objects in the sentences 'The cat swallowed the canary' and 'Billy likes the beer' would be examples of &%patients. Note that the &%patient of a &%Process may or may not undergo structural change as a result of the &%Process. The &%CaseRole of &%patient is used when one wants to specify as broadly as possible the object of a &%Process.\"")
(%3AidenticalTo "Slot(patient_1)")
(%3ASUO-name "patient"))
([patient_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 281)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(patient of Cls(CaseRole))")
(%3ASUO-name "patient"))
([penetrates] of AsymmetricRelation
(%3Adocumentation "\"(penetrates ?OBJ1 ?OBJ2) means that ?OBJ1 is &%connected to ?OBJ2 along at least one whole dimension (length, width or depth).\"")
(%3AidenticalTo
"Instance(penetrates_1 of Cls(IntransitiveRelation))"
"Instance(penetrates_3 of Cls(SpatialRelation))"
"Slot(penetrates_2)"
"Instance(penetrates_4 of Cls(BinaryRelation))")
(%3ASUO-name "penetrates"))
([penetrates_1] of IntransitiveRelation
(%3Adocumentation "\"(penetrates ?OBJ1 ?OBJ2) means that ?OBJ1 is &%connected to ?OBJ2 along at least one whole dimension (length, width or depth).\"")
(%3AidenticalTo
"Instance(penetrates of Cls(AsymmetricRelation))"
"Instance(penetrates_3 of Cls(SpatialRelation))"
"Slot(penetrates_2)"
"Instance(penetrates_4 of Cls(BinaryRelation))")
(%3ASUO-name "penetrates"))
([penetrates_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 441)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(penetrates of Cls(AsymmetricRelation))"
"Instance(penetrates_1 of Cls(IntransitiveRelation))"
"Instance(penetrates_3 of Cls(SpatialRelation))"
"Instance(penetrates_4 of Cls(BinaryRelation))")
(%3ASUO-name "penetrates"))
([penetrates_3] of SpatialRelation
(%3AidenticalTo
"Instance(penetrates of Cls(AsymmetricRelation))"
"Instance(penetrates_1 of Cls(IntransitiveRelation))"
"Slot(penetrates_2)"
"Instance(penetrates_4 of Cls(BinaryRelation))")
(%3ASUO-name "penetrates"))
([penetrates_4] of BinaryRelation
(%3AidenticalTo
"Instance(penetrates of Cls(AsymmetricRelation))"
"Instance(penetrates_1 of Cls(IntransitiveRelation))"
"Instance(penetrates_3 of Cls(SpatialRelation))"
"Slot(penetrates_2)")
(%3ASUO-name "penetrates"))
([Perception] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1466)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-628]
[UAX-629]))
([PerceptualAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1983)
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS [UAX-834]))
([PerFn] of BinaryFunction
(%3AidenticalTo
"Instance(PerFn_1 of Cls(TotalValuedRelation))"
"Slot(PerFn_2)")
(%3Adocumentation "\"&%PerFn maps two instances of &%ConstantQuantity to the &%FunctionQuantity composed of these two instances. For example, (&%PerFn (&%MeasureFn 2 (&%MicroFn &%Gram)) (&%MeasureFn 1 (&%KiloFn &%Gram))) denotes the &%FunctionQuantity of 2 micrograms per kiogram. This function is useful, because it allows the knowledge engineer to dynamically generate instances of &%FunctionQuantity.\"")
(%3ASUO-name "PerFn"))
([PerFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(PerFn of Cls(BinaryFunction))"
"Slot(PerFn_2)")
(%3Adocumentation "\"&%PerFn maps two instances of &%ConstantQuantity to the &%FunctionQuantity composed of these two instances. For example, (&%PerFn (&%MeasureFn 2 (&%MicroFn &%Gram)) (&%MeasureFn 1 (&%KiloFn &%Gram))) denotes the &%FunctionQuantity of 2 micrograms per kiogram. This function is useful, because it allows the knowledge engineer to dynamically generate instances of &%FunctionQuantity.\"")
(%3ASUO-name "PerFn"))
([PerFn_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 678)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain2Class ConstantQuantity)
(%3AidenticalTo
"Instance(PerFn of Cls(BinaryFunction))"
"Instance(PerFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "PerFn"))
([Periodical] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1735)
(%3AisInModule [OBJECTS]))
([PeriodicalIssueFn] of BinaryFunction
(%3AidenticalTo
"Slot(PeriodicalIssueFn_2)"
"Instance(PeriodicalIssueFn_1 of Cls(PartialValuedRelation))")
(%3Adocumentation "\"A &%BinaryFunction that maps a subclass of &%Periodical and a number to all of the issues of the &%Periodical corresponding to the number.\"")
(%3ASUO-name "PeriodicalIssueFn"))
([PeriodicalIssueFn_1] of PartialValuedRelation
(%3AidenticalTo
"Slot(PeriodicalIssueFn_2)"
"Instance(PeriodicalIssueFn of Cls(BinaryFunction))")
(%3Adocumentation "\"A &%BinaryFunction that maps a subclass of &%Periodical and a number to all of the issues of the &%Periodical corresponding to the number.\"")
(%3ASUO-name "PeriodicalIssueFn"))
([PeriodicalIssueFn_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 1728)
(%3ADomain2Type Instance)
(%3ADomain1Type Class)
(%3AisInModule [OBJECTS])
(%3ADomain2Class PositiveInteger)
(%3AidenticalTo
"Instance(PeriodicalIssueFn of Cls(BinaryFunction))"
"Instance(PeriodicalIssueFn_1 of Cls(PartialValuedRelation))")
(%3AAXIOMS "\n(UAX-729)\n(=>\n (equal (PeriodicalIssueFn ?PERIODICAL ?NUMBER) ?ISSUE)\n (subsumesContentClass ?PERIODICAL ?ISSUE))\n")
(%3ASUO-name "PeriodicalIssueFn"))
([PermanentResidence] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1765)
(disjoint [TemporaryResidence])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-745]))
([Permission] of DeonticAttribute
(%3Adocumentation "\"&%Attribute that applies to &%Propositions that an &%Agent is permitted, by some authority, to make true.\"")
(%3ASUO-name "Permission"))
([Phrase] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1698)
(disjointDecomposition
[VerbPhrase]
[NounPhrase]
[PrepositionalPhrase])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-712]))
([Physical] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 106)
(disjoint [Abstract])
(partition
[Object]
[Process])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-047]))
([PhysicalQuantity] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 228)
(partition
[ConstantQuantity]
[FunctionQuantity])
(%3AisInModule [BASE_ONTOLOGY]))
([PhysicalState] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1974)
(%3AisInModule [QUALITIES]))
([PhysiologicProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1114)
(disjoint [PathologicProcess])
(%3AisInModule [PROCESSES]))
([Pi] of PositiveRealNumber
(%3Adocumentation "\"&%Pi is the &%RealNumber that is the ratio of the perimeter of a circle to its diameter. It is approximately equal to 3.141592653589793.\"")
(%3ASUO-name "Pi"))
([PicoFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to .000000000001 units of the original &%UnitOfMeasure. For example, (&%PicoFn &%Ampere) is .000000000001 &%Amperes.\"")
(%3AidenticalTo
"Instance(PicoFn_1 of Cls(TotalValuedRelation))"
"Slot(PicoFn_2)")
(%3ASUO-name "PicoFn"))
([PicoFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(PicoFn of Cls(UnaryFunction))"
"Slot(PicoFn_2)")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to .000000000001 units of the original &%UnitOfMeasure. For example, (&%PicoFn &%Ampere) is .000000000001 &%Amperes.\"")
(%3ASUO-name "PicoFn"))
([PicoFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 672)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(PicoFn_1 of Cls(TotalValuedRelation))"
"Instance(PicoFn of Cls(UnaryFunction))")
(%3AAXIOMS "\n(UAX-274)\n(=>\n (instance ?UNIT UnitOfMeasure)\n (equal (PicoFn ?UNIT) (MeasureFn 0.000000000001 ?UNIT)))\n")
(%3ASUO-name "PicoFn"))
([piece] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 117)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(piece_1 of Cls(SpatialRelation))")
(%3AAXIOMS "\n(UAX-051)\n(=>\n (piece ?SUBSTANCE1 ?SUBSTANCE2)\n (forall (?CLASS)\n (=>\n (instance ?SUBSTANCE1 ?CLASS)\n (instance ?SUBSTANCE2 ?CLASS))))\n")
(%3ASUO-name "piece"))
([piece_1] of SpatialRelation
(%3AidenticalTo "Slot(piece)")
(%3ASUO-name "piece"))
([Pint] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 780)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-294])
(%3AidenticalTo "Instance(Pint_1 of Cls(UnitOfMeasure))"))
([Pint_1] of UnitOfMeasure
(%3AidenticalTo "Cls(Pint)")
(%3Adocumentation "English unit of volume equal to 1/2 of a &%Quart."))
([Plan] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1865)
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS
[UAX-784]
[UAX-785]))
([PlaneAngleMeasure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 652)
(disjoint [SolidAngleMeasure])
(%3AisInModule [UNITS_OF_MEASURE]))
([Planning] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1181)
(%3AisInModule [PROCESSES]))
([Plant] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1569)
(disjoint
[Animal]
[Microorganism])
(%3AisInModule [OBJECTS]))
([PlantAnatomicalStructure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1662)
(disjoint [AnimalAnatomicalStructure])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-699]))
([PlantSubstance] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1639)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-686]))
([Pliable] of ShapeAttribute
(contraryAttribute_2 [Rigid])
(%3Adocumentation "\"The shape of an &%Object with this &%Attribute can be altered.\"")
(%3AAXIOMS "\n(UAX-839)\n(=>\n (exists (?CHANGE)\n (and\n (instance ?CHANGE ShapeChange)\n (patient ?CHANGE ?OBJ)))\n (attribute ?OBJ Pliable))\n")
(%3ASUO-name "Pliable"))
([pointOfFigure] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 2031)
(%3AisInModule [QUALITIES])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(pointOfFigure_1 of Cls(BinaryPredicate))")
(%3ASUO-name "pointOfFigure"))
([pointOfFigure_1] of BinaryPredicate
(%3AidenticalTo "Slot(pointOfFigure)")
(%3ASUO-name "pointOfFigure"))
([pointOfIntersection] of TernaryPredicate
(%3AidenticalTo "Slot(pointOfIntersection_1)")
(%3Adocumentation "\"(&%pointOfIntersection ?FIGURE1 ?FIGURE2 ?POINT) means that the two straight lines ?FIGURE1 and ?FIGURE2 meet at the point ?POINT.\"")
(%3ASUO-name "pointOfIntersection"))
([pointOfIntersection_1] of %3ATernarySlot
(%3ALOAD-SEQUENCE 2034)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [QUALITIES])
(%3ADomain2Class OneDimensionalFigure)
(%3AidenticalTo "Instance(pointOfIntersection of Cls(TernaryPredicate))")
(%3AAXIOMS "\n(UAX-848)\n(=>\n (pointOfIntersection ?FIGURE1 ?FIGURE2 ?POINT)\n (and\n (pointOfFigure ?POINT ?FIGURE1)\n (pointOfFigure ?POINT ?FIGURE2)))\n")
(%3ASUO-name "pointOfIntersection"))
([Poisoning] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1148)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-480]
[UAX-481]))
([Poking] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1336)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-565]))
([PoliceOrganization] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1851)
(%3AisInModule [OBJECTS]))
([PoliticalOrganization] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1844)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-781]))
([PoliticalProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1174)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-493]))
([Pollen] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1668)
(%3AisInModule [OBJECTS]))
([Polychromatic] of ColorAttribute
(contraryAttribute_2 [Monochromatic])
(%3Adocumentation "\"An &%Object with this &%Attribute has different colors on different parts of its surface.\"")
(%3AAXIOMS "\n(UAX-838)\n(=>\n (attribute ?OBJ Polychromatic)\n (exists (?PART1 ?PART2 ?COLOR1 ?COLOR2)\n (and\n (superficialPart ?PART1 ?OBJ)\n (superficialPart ?PART2 ?OBJ)\n (attribute ?PART1 ?COLOR1)\n (attribute ?PART2 ?COLOR2)\n (instance ?COLOR1 ColorAttribute)\n (instance ?COLOR2 ColorAttribute)\n (not (equal ?COLOR1 ?COLOR2)))))\n")
(%3ASUO-name "Polychromatic"))
([Polygon] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2017)
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS [UAX-842]))
([Position] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1941)
(%3AisInModule [QUALITIES]))
([PositionalAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1896)
(%3AisInModule [QUALITIES]))
([PositiveInfinity] of TimePoint
(%3Adocumentation "\"The &%TimePoint that is after all other &%TimePoints.\"")
(%3AAXIOMS "\n(UAX-319)\n(=>\n (and\n (instance ?POINT TimePoint)\n (not (equal ?POINT PositiveInfinity)))\n (before ?POINT PositiveInfinity))\n\n(UAX-320)\n(=>\n (and\n (instance ?POINT TimePoint)\n (not (equal ?POINT PositiveInfinity)))\n (exists (?OTHERPOINT)\n (temporallyBetween ?POINT ?OTHERPOINT PositiveInfinity)))\n")
(%3ASUO-name "PositiveInfinity"))
([PositiveInteger] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 224)
(%3AisInModule [BASE_ONTOLOGY]))
([PositiveRealNumber] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 214)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-079]))
([possesses] of BinaryPredicate
(%3Adocumentation "\"&%Relation that holds between an &%Agent and an &%Object when the &%Agent has ownership of the &%Object.\"")
(%3AidenticalTo
"Slot(possesses_2)"
"Instance(possesses_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "possesses"))
([possesses_1] of AsymmetricRelation
(%3Adocumentation "\"&%Relation that holds between an &%Agent and an &%Object when the &%Agent has ownership of the &%Object.\"")
(%3AidenticalTo
"Slot(possesses_2)"
"Instance(possesses of Cls(BinaryPredicate))")
(%3ASUO-name "possesses"))
([possesses_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 444)
(relatedInternalConcept "ChangeOfPossession")
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(possesses_1 of Cls(AsymmetricRelation))"
"Instance(possesses of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-176)\n(=>\n (possesses ?PERSON ?OBJ)\n (holdsRight (uses ?OBJ ?PERSON) ?PERSON))\n\n(UAX-177)\n(=>\n (and\n (instance ?TIME TimePosition)\n (holdsDuring ?TIME (possesses ?AGENT1 ?OBJ))\n (holdsDuring ?TIME (possesses ?AGENT2 ?OBJ)))\n (equal ?AGENT1 ?AGENT2))\n")
(%3ASUO-name "possesses"))
([Possibility] of AlethicAttribute
(%3Adocumentation "\"Attribute that applies to &%Propositions that are possible, i.e. true in at least one possible world.\"")
(%3ASUO-name "Possibility"))
([PoundForce] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 799)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-301])
(%3AidenticalTo "Instance(PoundForce_1 of Cls(UnitOfMeasure))"))
([PoundForce_1] of UnitOfMeasure
(%3AidenticalTo "Cls(PoundForce)")
(%3Adocumentation "English pound of force. The conversion factor depends on the local value of the acceleration of free fall. A mean value is used in the conversion axiom associated with this constant."))
([PoundMass] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 790)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-298])
(%3AidenticalTo "Instance(PoundMass_1 of Cls(UnitOfMeasure))"))
([PoundMass_1] of UnitOfMeasure
(%3AidenticalTo "Cls(PoundMass)")
(%3Adocumentation "English mass unit of pounds."))
([PowerSetFn] of UnaryFunction
(%3Adocumentation "\"(&%PowerSetFn ?CLASS) maps the &%SetOrClass ?CLASS to the &%SetOrClass of all &%subclasses of ?CLASS.\"")
(%3AidenticalTo
"Instance(PowerSetFn_1 of Cls(TotalValuedRelation))"
"Slot(PowerSetFn_2)")
(%3ASUO-name "PowerSetFn"))
([PowerSetFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(PowerSetFn of Cls(UnaryFunction))"
"Slot(PowerSetFn_2)")
(%3Adocumentation "\"(&%PowerSetFn ?CLASS) maps the &%SetOrClass ?CLASS to the &%SetOrClass of all &%subclasses of ?CLASS.\"")
(%3ASUO-name "PowerSetFn"))
([PowerSetFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 96)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(PowerSetFn of Cls(UnaryFunction))"
"Instance(PowerSetFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "PowerSetFn"))
([Precipitation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1358)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-575]))
([precondition] of BinaryPredicate
(%3Adocumentation "\"A very general &%Predicate. (&%precondition ?PROC1 ?PROC2) means that an instance of ?PROC2 can exist only if an instance of ?PROC1 also exists.\"")
(%3AidenticalTo
"Slot(precondition_3)"
"Instance(precondition_2 of Cls(TransitiveRelation))"
"Instance(precondition_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "precondition"))
([precondition_1] of AsymmetricRelation
(%3Adocumentation "\"A very general &%Predicate. (&%precondition ?PROC1 ?PROC2) means that an instance of ?PROC2 can exist only if an instance of ?PROC1 also exists.\"")
(%3AidenticalTo
"Slot(precondition_3)"
"Instance(precondition_2 of Cls(TransitiveRelation))"
"Instance(precondition of Cls(BinaryPredicate))")
(%3ASUO-name "precondition"))
([precondition_2] of TransitiveRelation
(%3Adocumentation "\"A very general &%Predicate. (&%precondition ?PROC1 ?PROC2) means that an instance of ?PROC2 can exist only if an instance of ?PROC1 also exists.\"")
(%3AidenticalTo
"Slot(precondition_3)"
"Instance(precondition_1 of Cls(AsymmetricRelation))"
"Instance(precondition of Cls(BinaryPredicate))")
(%3ASUO-name "precondition"))
([precondition_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 449)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Class)
(%3AidenticalTo
"Instance(precondition_2 of Cls(TransitiveRelation))"
"Instance(precondition_1 of Cls(AsymmetricRelation))"
"Instance(precondition of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-179)\n(=>\n (precondition ?PROC1 ?PROC2)\n (=>\n (exists (?INST2) (instance ?INST2 ?PROC2))\n (exists (?INST1) (instance ?INST1 ?PROC1))))\n")
(%3ASUO-name "precondition"))
([PredecessorFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps an &%Integer to its predecessor, e.g. the predecessor of 5 is 4.\"")
(%3AidenticalTo
"Slot(PredecessorFn_2)"
"Instance(PredecessorFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "PredecessorFn"))
([PredecessorFn_1] of TotalValuedRelation
(%3AidenticalTo
"Slot(PredecessorFn_2)"
"Instance(PredecessorFn of Cls(UnaryFunction))")
(%3Adocumentation "\"A &%UnaryFunction that maps an &%Integer to its predecessor, e.g. the predecessor of 5 is 4.\"")
(%3ASUO-name "PredecessorFn"))
([PredecessorFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 551)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(PredecessorFn of Cls(UnaryFunction))"
"Instance(PredecessorFn_1 of Cls(TotalValuedRelation))")
(%3AAXIOMS "\n(UAX-228)\n(=>\n (equal (PredecessorFn ?INT1) (PredecessorFn ?INT2))\n (equal ?INT1 ?INT2))\n\n(UAX-229)\n(=>\n (instance ?INT Integer)\n (greaterThan ?INT (PredecessorFn ?INT)))\n\n(UAX-230)\n(=>\n (and\n (instance ?INT1 Integer)\n (instance ?INT2 Integer))\n (not\n (and\n (lessThan ?INT2 ?INT1)\n (lessThan (PredecessorFn ?INT1) ?INT2))))\n")
(%3ASUO-name "PredecessorFn"))
([Predicate] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 355)
(disjoint
[Function]
[List])
(%3AisInModule [BASE_ONTOLOGY])
(%3AidenticalTo "Instance(Predicate_1 of Cls(InheritableRelation))"))
([Predicate_1] of InheritableRelation
(%3Adocumentation "\"A &%Predicate is a sentence-forming &%Relation. Each tuple in the &%Relation is a finite, ordered sequence of objects. The fact that a particular tuple is an element of a &%Predicate is denoted by '(*predicate* arg_1 arg_2 .. arg_n)', where the arg_i are the objects so related. In the case of &%BinaryPredicates, the fact can be read as `arg_1 is *predicate* arg_2' or `a *predicate* of arg_1 is arg_2'.\"")
(%3AidenticalTo "Cls(Predicate)"))
([Predicting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1312)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-552]))
([prefers] of TernaryPredicate
(%3AidenticalTo
"Slot(prefers_2)"
"Instance(prefers_1 of Cls(IntentionalRelation))")
(%3Adocumentation "\"(&%prefers ?AGENT ?FORMULA1 ?FORMULA2) means that &%CognitiveAgent ?AGENT prefers the state of affairs expressed by ?FORMULA1 over the state of affairs expressed by ?FORMULA2 all things being equal.\"")
(%3ASUO-name "prefers"))
([prefers_1] of IntentionalRelation)
([prefers_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 299)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain2Class Formula)
(%3AidenticalTo
"Instance(prefers of Cls(TernaryPredicate))"
"Instance(prefers_1 of Cls(IntentionalRelation))")
(%3AAXIOMS "\n(UAX-103)\n(=>\n (prefers ?AGENT ?FORMULA1 ?FORMULA2)\n (not (and\n (true ?FORMULA1 True)\n (true ?FORMULA2 True))))\n")
(%3ASUO-name "prefers"))
([premise] of BinaryPredicate
(%3Adocumentation "\"(&%premise ?ARGUMENT ?PROPOSITION) means that the &%Proposition ?PROPOSITION is an explicit assumption of the &%Argument ?ARGUMENT.\"")
(%3AidenticalTo
"Slot(premise_2)"
"Instance(premise_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "premise"))
([premise_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(premise of Cls(BinaryPredicate))"
"Slot(premise_2)")
(%3Adocumentation "\"(&%premise ?ARGUMENT ?PROPOSITION) means that the &%Proposition ?PROPOSITION is an explicit assumption of the &%Argument ?ARGUMENT.\"")
(%3ASUO-name "premise"))
([premise_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1876)
(%3AisInModule [QUALITIES])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(premise of Cls(BinaryPredicate))"
"Instance(premise_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "premise"))
([PremisesFn] of UnaryFunction
(%3Adocumentation "\"(&%PremisesFn ?ARGUMENT) returns the complete set of &%premises of the &%Argument ?ARGUMENT.\"")
(%3AAXIOMS "\n(UAX-789)\n(=>\n (and\n (instance ?ARGUMENT Argument)\n (equal ?PREMISES (PremisesFn ?ARGUMENT)))\n (<=>\n (subProposition ?PROPOSITION ?PREMISES)\n (premise ?ARGUMENT ?PROPOSITION)))\n")
(%3ASUO-name "PremisesFn"))
([PrepositionalPhrase] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1705)
(disjoint
[VerbPhrase]
[NounPhrase])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-716]))
([Pretending] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1403)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-598]))
([prevents] of BinaryPredicate
(%3Adocumentation "\"A very general &%Predicate. (&%prevents ?PROC1 ?PROC2) means that ?PROC1 prevents the occurrence of ?PROC2. In other words, if ?PROC1 is occurring in a particular time and place, ?PROC2 cannot occur at the same time and place. For example, innoculating prevents contracting disease. Note that this is a relation between types of &%Processes, not between instances.\"")
(%3AidenticalTo
"Slot(prevents_2)"
"Instance(prevents_1 of Cls(IrreflexiveRelation))")
(%3ASUO-name "prevents"))
([prevents_1] of IrreflexiveRelation
(%3Adocumentation "\"A very general &%Predicate. (&%prevents ?PROC1 ?PROC2) means that ?PROC1 prevents the occurrence of ?PROC2. In other words, if ?PROC1 is occurring in a particular time and place, ?PROC2 cannot occur at the same time and place. For example, innoculating prevents contracting disease. Note that this is a relation between types of &%Processes, not between instances.\"")
(%3AidenticalTo
"Slot(prevents_2)"
"Instance(prevents of Cls(BinaryPredicate))")
(%3ASUO-name "prevents"))
([prevents_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 453)
(relatedInternalConcept "inhibits")
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Class)
(%3AidenticalTo
"Instance(prevents_1 of Cls(IrreflexiveRelation))"
"Instance(prevents of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-181)\n(=>\n (prevents ?PROC1 ?PROC2)\n (forall (?TIME ?PLACE)\n (=>\n (holdsDuring ?TIME (exists (?INST1) (and (instance ?INST1 ?PROC1) (located ?INST1 ?PLACE))))\n (not (holdsDuring ?TIME (exists (?INST2) (and (instance ?INST2 ?PROC2) (located ?INST2 ?PLACE))))))))\n")
(%3ASUO-name "prevents"))
([PrimaryColor] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1992)
(%3AisInModule [QUALITIES]))
([Primate] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1611)
(disjoint
[AquaticMammal]
[HoofedMammal]
[Marsupial]
[Rodent])
(disjointDecomposition
[Ape]
[Monkey]
[Hominid])
(%3AisInModule [OBJECTS]))
([PrimeNumber] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 221)
(%3AisInModule [BASE_ONTOLOGY]))
([PrincipalHostFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%Hole to the &%Object which is its principal host. The principle host of a &%Hole is its maximally connected host (a notion taken here to be defined only when the argument is a hole).\"")
(%3AidenticalTo
"Slot(PrincipalHostFn_4)"
"Instance(PrincipalHostFn_1 of Cls(SpatialRelation))"
"Instance(PrincipalHostFn_2 of Cls(TotalValuedRelation))"
"Instance(PrincipalHostFn_3 of Cls(AsymmetricRelation))")
(%3ASUO-name "PrincipalHostFn"))
([PrincipalHostFn_1] of SpatialRelation
(%3AidenticalTo
"Slot(PrincipalHostFn_4)"
"Instance(PrincipalHostFn of Cls(UnaryFunction))"
"Instance(PrincipalHostFn_2 of Cls(TotalValuedRelation))"
"Instance(PrincipalHostFn_3 of Cls(AsymmetricRelation))")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%Hole to the &%Object which is its principal host. The principle host of a &%Hole is its maximally connected host (a notion taken here to be defined only when the argument is a hole).\"")
(%3ASUO-name "PrincipalHostFn"))
([PrincipalHostFn_2] of TotalValuedRelation
(%3AidenticalTo
"Slot(PrincipalHostFn_4)"
"Instance(PrincipalHostFn of Cls(UnaryFunction))"
"Instance(PrincipalHostFn_1 of Cls(SpatialRelation))"
"Instance(PrincipalHostFn_3 of Cls(AsymmetricRelation))")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%Hole to the &%Object which is its principal host. The principle host of a &%Hole is its maximally connected host (a notion taken here to be defined only when the argument is a hole).\"")
(%3ASUO-name "PrincipalHostFn"))
([PrincipalHostFn_3] of AsymmetricRelation
(%3Adocumentation "\"A &%UnaryFunction that maps a &%Hole to the &%Object which is its principal host. The principle host of a &%Hole is its maximally connected host (a notion taken here to be defined only when the argument is a hole).\"")
(%3AidenticalTo
"Slot(PrincipalHostFn_4)"
"Instance(PrincipalHostFn of Cls(UnaryFunction))"
"Instance(PrincipalHostFn_1 of Cls(SpatialRelation))"
"Instance(PrincipalHostFn_2 of Cls(TotalValuedRelation))")
(%3ASUO-name "PrincipalHostFn"))
([PrincipalHostFn_4] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1072)
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(PrincipalHostFn of Cls(UnaryFunction))"
"Instance(PrincipalHostFn_1 of Cls(SpatialRelation))"
"Instance(PrincipalHostFn_2 of Cls(TotalValuedRelation))"
"Instance(PrincipalHostFn_3 of Cls(AsymmetricRelation))")
(%3AAXIOMS "\n(UAX-445)\n(=>\n (equal ?OBJ1 (PrincipalHostFn ?HOLE))\n (forall (?OBJ2)\n (<=>\n (overlapsSpatially ?OBJ2 ?OBJ1)\n (exists (?OBJ3)\n (and\n (hole ?HOLE ?OBJ3)\n (overlapsSpatially ?OBJ2 ?OBJ3))))))\n\n(UAX-446)\n(=>\n (hole ?HOLE ?OBJ)\n (connected ?HOLE ?OBJ))\n\n(UAX-447)\n(=>\n (and\n (instance ?HOLE1 Hole)\n (properPart ?HOLE2 ?HOLE1))\n (exists (?OBJ)\n (and\n (meetsSpatially ?HOLE1 ?OBJ)\n (not\n (meetsSpatially ?HOLE2 ?OBJ)))))\n")
(%3ASUO-name "PrincipalHostFn"))
([ProbabilityFn] of UnaryFunction
(%3Adocumentation "\"One of the basic &%ProbabilityRelations, &%ProbabilityFn is used to state the a priori probability of a state of affairs. (&%ProbabilityFn ?FORMULA) denotes the a priori probability of ?FORMULA.\"")
(%3AidenticalTo
"Slot(ProbabilityFn_4)"
"Instance(ProbabilityFn_3 of Cls(AsymmetricRelation))"
"Instance(ProbabilityFn_1 of Cls(ProbabilityRelation))"
"Instance(ProbabilityFn_2 of Cls(TotalValuedRelation))")
(%3ASUO-name "ProbabilityFn"))
([ProbabilityFn_1] of ProbabilityRelation
(%3AidenticalTo
"Slot(ProbabilityFn_4)"
"Instance(ProbabilityFn_3 of Cls(AsymmetricRelation))"
"Instance(ProbabilityFn of Cls(UnaryFunction))"
"Instance(ProbabilityFn_2 of Cls(TotalValuedRelation))")
(%3Adocumentation "\"One of the basic &%ProbabilityRelations, &%ProbabilityFn is used to state the a priori probability of a state of affairs. (&%ProbabilityFn ?FORMULA) denotes the a priori probability of ?FORMULA.\"")
(%3ASUO-name "ProbabilityFn"))
([ProbabilityFn_2] of TotalValuedRelation
(%3AidenticalTo
"Slot(ProbabilityFn_4)"
"Instance(ProbabilityFn_3 of Cls(AsymmetricRelation))"
"Instance(ProbabilityFn of Cls(UnaryFunction))"
"Instance(ProbabilityFn_1 of Cls(ProbabilityRelation))")
(%3Adocumentation "\"One of the basic &%ProbabilityRelations, &%ProbabilityFn is used to state the a priori probability of a state of affairs. (&%ProbabilityFn ?FORMULA) denotes the a priori probability of ?FORMULA.\"")
(%3ASUO-name "ProbabilityFn"))
([ProbabilityFn_3] of AsymmetricRelation
(%3Adocumentation "\"One of the basic &%ProbabilityRelations, &%ProbabilityFn is used to state the a priori probability of a state of affairs. (&%ProbabilityFn ?FORMULA) denotes the a priori probability of ?FORMULA.\"")
(%3AidenticalTo
"Slot(ProbabilityFn_4)"
"Instance(ProbabilityFn of Cls(UnaryFunction))"
"Instance(ProbabilityFn_1 of Cls(ProbabilityRelation))"
"Instance(ProbabilityFn_2 of Cls(TotalValuedRelation))")
(%3ASUO-name "ProbabilityFn"))
([ProbabilityFn_4] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 286)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(ProbabilityFn_3 of Cls(AsymmetricRelation))"
"Instance(ProbabilityFn of Cls(UnaryFunction))"
"Instance(ProbabilityFn_1 of Cls(ProbabilityRelation))"
"Instance(ProbabilityFn_2 of Cls(TotalValuedRelation))")
(%3ASUO-name "ProbabilityFn"))
([ProbabilityRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 285)
(%3AisInModule [BASE_ONTOLOGY])
(%3AidenticalTo "Instance(ProbabilityRelation_1 of Cls(InheritableRelation))"))
([ProbabilityRelation_1] of InheritableRelation
(%3Adocumentation "\"The &%Class of &%Relations that permit assessment of the probability of an event or situation.\"")
(%3AidenticalTo "Cls(ProbabilityRelation)"))
([Procedure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1863)
(%3AisInModule [QUALITIES]))
([Process] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 182)
(disjoint [Object])
(%3AisInModule [BASE_ONTOLOGY]))
([PROCESSES] of %3AModule
(%3AStartingBlock 1102)
(%3AinputFile "testin.kif")
(%3ASUO-name "PROCESSES"))
([Product] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1752)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-739]))
([Promise] of DeonticAttribute
(%3Adocumentation "\"&%Attribute that applies to &%Propositions that an &%Agent is required, by some authority, to make true.\""))
([properlyFills] of AsymmetricRelation
(%3Adocumentation "\"(&%properlyFills ?OBJ ?HOLE) means that ?HOLE is properly (though perhaps incompletely) filled by ?OBJ, i.e. some part of ?HOLE is perfectly filled by ?OBJ. Note that &%properlyFills is the dual of &%completelyFills, and is so related to &%partiallyFills that ?OBJ &%properlyFills ?HOLE just in case ?OBJ &%partiallyFills every part of ?HOLE. (Thus, every perfect filler is both complete and proper in this sense).\"")
(%3AidenticalTo "Slot(properlyFills_1)")
(%3ASUO-name "properlyFills"))
([properlyFills_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1084)
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(properlyFills of Cls(AsymmetricRelation))")
(%3AAXIOMS "\n(UAX-451)\n(=>\n (properlyFills ?OBJ ?HOLE1)\n (exists (?HOLE2)\n (and\n (part ?HOLE2 ?HOLE1)\n (fills ?OBJ ?HOLE2))))\n")
(%3ASUO-name "properlyFills"))
([properPart] of AsymmetricRelation
(%3Adocumentation "\"(&%properPart ?OBJ1 ?OBJ2) means that ?OBJ1 is a part of ?OBJ2 other than ?OBJ2 itself. This is a &%TransitiveRelation and &%AsymmetricRelation (hence an &%IrreflexiveRelation).\"")
(%3AidenticalTo
"Slot(properPart_2)"
"Instance(properPart_3 of Cls(SpatialRelation))"
"Instance(properPart_1 of Cls(TransitiveRelation))")
(%3ASUO-name "properPart"))
([properPart_1] of TransitiveRelation
(%3Adocumentation "\"(&%properPart ?OBJ1 ?OBJ2) means that ?OBJ1 is a part of ?OBJ2 other than ?OBJ2 itself. This is a &%TransitiveRelation and &%AsymmetricRelation (hence an &%IrreflexiveRelation).\"")
(%3AidenticalTo
"Slot(properPart_2)"
"Instance(properPart_3 of Cls(SpatialRelation))"
"Instance(properPart of Cls(AsymmetricRelation))")
(%3ASUO-name "properPart"))
([properPart_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 115)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(properPart_3 of Cls(SpatialRelation))"
"Instance(properPart of Cls(AsymmetricRelation))"
"Instance(properPart_1 of Cls(TransitiveRelation))")
(%3AAXIOMS "\n(UAX-050)\n(<=>\n (properPart ?OBJ1 ?OBJ2)\n (and\n (part ?OBJ1 ?OBJ2)\n (not\n (part ?OBJ2 ?OBJ1))))\n")
(%3ASUO-name "properPart"))
([properPart_3] of SpatialRelation
(%3AidenticalTo
"Slot(properPart_2)"
"Instance(properPart of Cls(AsymmetricRelation))"
"Instance(properPart_1 of Cls(TransitiveRelation))")
(%3ASUO-name "properPart"))
([property] of BinaryPredicate
(%3Adocumentation "\"This &%Predicate holds between an instance of &%Entity and an instance of &%Attribute. (property ?ENTITY ?ATTR) means that ?ENTITY has the &%Attribute ?ATTR.\"")
(%3AidenticalTo "Slot(property_1)")
(%3ASUO-name "property"))
([property_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 190)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(property of Cls(BinaryPredicate))")
(%3ASUO-name "property"))
([PropertyFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps an &%Agent to the &%Set of &%Property owned by the &%Agent.\"")
(%3AidenticalTo
"Slot(PropertyFn_2)"
"Instance(PropertyFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "PropertyFn"))
([PropertyFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(PropertyFn of Cls(UnaryFunction))"
"Slot(PropertyFn_2)")
(%3Adocumentation "\"A &%UnaryFunction that maps an &%Agent to the &%Set of &%Property owned by the &%Agent.\"")
(%3ASUO-name "PropertyFn"))
([PropertyFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 447)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(PropertyFn of Cls(UnaryFunction))"
"Instance(PropertyFn_1 of Cls(TotalValuedRelation))")
(%3AAXIOMS "\n(UAX-178)\n(<=>\n (instance ?OBJ (PropertyFn ?PERSON))\n (possesses ?PERSON ?OBJ))\n")
(%3ASUO-name "PropertyFn"))
([Proposition] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 386)
(disjoint
[Quantity]
[Attribute]
[SetOrClass]
[Relation]
[Graph]
[GraphElement])
(%3AisInModule [BASE_ONTOLOGY]))
([PropositionalAttitude] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 301)
(disjoint [ObjectAttitude])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-104])
(%3AidenticalTo "Instance(PropositionalAttitude_1 of Cls(InheritableRelation))"))
([PropositionalAttitude_1] of InheritableRelation
(%3Adocumentation "\"The &%Class of &%IntentionalRelations where the &%Agent has awareness of a &%Proposition.\"")
(%3AidenticalTo "Cls(PropositionalAttitude)"))
([Prostrate] of BodyPosition
(%3Adocumentation "\"The &%BodyPosition of lying down, being in a horizontal position.\"")
(%3ASUO-name "Prostrate"))
([Protein] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1622)
(disjoint
[Carbohydrate]
[Vitamin])
(%3AisInModule [OBJECTS]))
([Proton] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 137)
(%3AisInModule [BASE_ONTOLOGY]))
([PseudoGraph] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 600)
(%3AisInModule [GRAPH_THEORY])
(%3ASLOT-CONSTRAINTS [UAX-246]))
([PsychologicalAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2092)
(partition
[StateOfMind]
[TraitAttribute])
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS
[UAX-872]
[UAX-873]))
([PsychologicalDysfunction] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2104)
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS
[UAX-876]
[UAX-877]
[UAX-878]
[UAX-879]
[UAX-880]
[UAX-881]
[UAX-882]))
([PsychologicalProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1139)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-475]))
([Publication] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1388)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-589]))
([publishes] of BinaryPredicate
(%3Adocumentation "\"(&%publishes ?ORG ?TEXT) means that ?ORG publishes ?TEXT. For example, Bantam Books publishes Agatha Christie's Murder_on_the_Orient_Express.\"")
(%3AidenticalTo
"Instance(publishes_1 of Cls(AsymmetricRelation))"
"Slot(publishes_2)")
(%3ASUO-name "publishes"))
([publishes_1] of AsymmetricRelation
(%3Adocumentation "\"(&%publishes ?ORG ?TEXT) means that ?ORG publishes ?TEXT. For example, Bantam Books publishes Agatha Christie's Murder_on_the_Orient_Express.\"")
(%3AidenticalTo
"Instance(publishes of Cls(BinaryPredicate))"
"Slot(publishes_2)")
(%3ASUO-name "publishes"))
([publishes_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1720)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(publishes of Cls(BinaryPredicate))"
"Instance(publishes_1 of Cls(AsymmetricRelation))")
(%3AAXIOMS "\n(UAX-724)\n(<=>\n (publishes ?ORG ?TEXT)\n (exists (?PUB)\n (and\n (instance ?PUB Publication)\n (agent ?PUB ?ORG)\n (patient ?PUB ?TEXT))))\n")
(%3ASUO-name "publishes"))
([PurchaseContract] of DeonticAttribute
(%3Adocumentation "\"&%Attribute that applies to &%Propositions that an &%Agent is required, by some authority, to make true.\""))
([PureSubstance] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 126)
(partition
[CompoundSubstance]
[ElementalSubstance])
(%3AisInModule [BASE_ONTOLOGY]))
([Pursuing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1392)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-591]
[UAX-592]
[UAX-593]))
([Putting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1225)
(relatedInternalConcept
"Increasing"
"Attaching")
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-511]))
([Quadrilateral] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2021)
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS [UAX-844]))
([QUALITIES] of %3AModule
(%3AStartingBlock 1859)
(%3AinputFile "testin.kif")
(%3ASUO-name "QUALITIES"))
([Quantity] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 188)
(disjoint
[Attribute]
[SetOrClass]
[Relation]
[Proposition]
[Graph]
[GraphElement])
(%3AisInModule [BASE_ONTOLOGY]))
([QuantityChange] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1185)
(partition
[Increasing]
[Decreasing])
(%3AisInModule [PROCESSES]))
([Quart] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 778)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-293])
(%3AidenticalTo "Instance(Quart_1 of Cls(UnitOfMeasure))"))
([Quart_1] of UnitOfMeasure
(%3AidenticalTo "Cls(Quart)")
(%3Adocumentation "English unit of volume equal to 1/4 of a &%UnitedStatesGallon."))
([QuaternaryFunction] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 371)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-143])
(%3AidenticalTo "Instance(QuaternaryFunction_1 of Cls(InheritableRelation))"))
([QuaternaryFunction_1] of InheritableRelation
(%3Adocumentation "\"The &%Class of &%Functions that require exactly four arguments.\"")
(%3AidenticalTo "Cls(QuaternaryFunction)"))
([QuaternaryPredicate] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 379)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-146])
(%3AidenticalTo "Instance(QuaternaryPredicate_1 of Cls(InheritableRelation))"))
([QuaternaryPredicate_1] of InheritableRelation
(%3Adocumentation "\"The &%Class of &%Predicates that require four arguments.\"")
(%3AidenticalTo "Cls(QuaternaryPredicate)"))
([QuaternaryRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 321)
(disjoint
[UnaryRelation]
[BinaryRelation]
[TernaryRelation]
[QuintaryRelation]
[VariableArityRelation])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-114])
(%3AidenticalTo "Instance(QuaternaryRelation_1 of Cls(InheritableRelation))"))
([QuaternaryRelation_1] of InheritableRelation
(%3Adocumentation "\"&%QuaternaryRelations relate four items. The two &%subclasses of &%QuaternaryRelation are &%QuaternaryPredicate and &%TernaryFunction.\"")
(%3AidenticalTo "Cls(QuaternaryRelation)"))
([Questioning] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1429)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-609]))
([QuintaryPredicate] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 381)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-147])
(%3AidenticalTo "Instance(QuintaryPredicate_1 of Cls(InheritableRelation))"))
([QuintaryPredicate_1] of InheritableRelation
(%3Adocumentation "\"The &%Class of &%Predicates that require five arguments.\"")
(%3AidenticalTo "Cls(QuintaryPredicate)"))
([QuintaryRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 323)
(disjoint
[UnaryRelation]
[BinaryRelation]
[TernaryRelation]
[QuaternaryRelation]
[VariableArityRelation])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-115])
(%3AidenticalTo "Instance(QuintaryRelation_1 of Cls(InheritableRelation))"))
([QuintaryRelation_1] of InheritableRelation
(%3Adocumentation "\"&%QuintaryRelations relate five items. The two &%subclasses of &%QuintaryRelation are &%QuintaryPredicate and &%QuaternaryFunction.\"")
(%3AidenticalTo "Cls(QuintaryRelation)"))
([Radian] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 704)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Radian_1 of Cls(SystemeInternationalUnit))"))
([Radian_1] of SystemeInternationalUnit
(%3Adocumentation "SI plane angle measure. Symbol: rad. It is the angle of a circle subtended by an arc equal in length to the circle's radius. Another definition is: the plane angle between two radii of a circle which cut off on the circumference an arc equal in length to the radius. &%Radian = m/m = 1.")
(%3AidenticalTo "Cls(Radian)"))
([Radiating] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1481)
(%3AisInModule [PROCESSES]))
([RadiatingElectromagnetic] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1487)
(%3AisInModule [PROCESSES]))
([RadiatingLight] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1482)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-635]))
([RadiatingNuclear] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1488)
(%3AisInModule [PROCESSES]))
([RadiatingSound] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1484)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-636]))
([radius] of BinaryPredicate
(%3Adocumentation "\"(&%radius ?CIRCLE ?LENGTH) means that the radius of the &%Circle ?CIRCLE has a length of ?LENGTH.\"")
(%3AidenticalTo
"Instance(radius_2 of Cls(TotalValuedRelation))"
"Instance(radius_1 of Cls(SingleValuedRelation))"
"Slot(radius_3)")
(%3ASUO-name "radius"))
([radius_1] of SingleValuedRelation
(%3AidenticalTo
"Instance(radius of Cls(BinaryPredicate))"
"Instance(radius_2 of Cls(TotalValuedRelation))"
"Slot(radius_3)")
(%3Adocumentation "\"(&%radius ?CIRCLE ?LENGTH) means that the radius of the &%Circle ?CIRCLE has a length of ?LENGTH.\"")
(%3ASUO-name "radius"))
([radius_2] of TotalValuedRelation
(%3AidenticalTo
"Instance(radius of Cls(BinaryPredicate))"
"Instance(radius_1 of Cls(SingleValuedRelation))"
"Slot(radius_3)")
(%3Adocumentation "\"(&%radius ?CIRCLE ?LENGTH) means that the radius of the &%Circle ?CIRCLE has a length of ?LENGTH.\"")
(%3ASUO-name "radius"))
([radius_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 2042)
(%3AisInModule [QUALITIES])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(radius of Cls(BinaryPredicate))"
"Instance(radius_2 of Cls(TotalValuedRelation))"
"Instance(radius_1 of Cls(SingleValuedRelation))")
(%3AAXIOMS "\n(UAX-851)\n(=>\n (radius ?CIRCLE ?RADIUS)\n (exists (?POINT)\n (forall (?PART)\n (=>\n (pointOfFigure ?PART ?CIRCLE)\n (geometricDistance ?PART ?POINT ?RADIUS)))))\n")
(%3ASUO-name "radius"))
([range] of BinaryPredicate
(%3Adocumentation "\"Gives the range of a function. In other words, (&%range ?FUNCTION ?CLASS) means that all of the values assigned by ?FUNCTION are &%instances of ?CLASS.\"")
(%3AidenticalTo
"Slot(range_2)"
"Instance(range_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "range"))
([range_1] of AsymmetricRelation
(%3Adocumentation "\"Gives the range of a function. In other words, (&%range ?FUNCTION ?CLASS) means that all of the values assigned by ?FUNCTION are &%instances of ?CLASS.\"")
(%3AidenticalTo
"Slot(range_2)"
"Instance(range of Cls(BinaryPredicate))")
(%3ASUO-name "range"))
([range_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 38)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(range_1 of Cls(AsymmetricRelation))"
"Instance(range of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-019)\n(=>\n (and\n (range ?FUNCTION ?CLASS)\n (equal (AssignmentFn ?FUNCTION @ROW) ?VALUE))\n (instance ?VALUE ?CLASS))\n\n(UAX-020)\n(=>\n (and\n (subrelation ?REL1 ?REL2)\n (range ?REL2 ?CLASS1))\n (range ?REL1 ?CLASS1))\n\n(UAX-021)\n(=>\n (and\n (range ?REL ?CLASS1)\n (range ?REL ?CLASS2))\n (or\n (subclass ?CLASS1 ?CLASS2)\n (subclass ?CLASS2 ?CLASS1)))\n")
(%3ASUO-name "range"))
([rangeSubclass] of BinaryPredicate
(%3Adocumentation "\"(&%rangeSubclass ?FUNCTION ?CLASS) means that all of the values assigned by ?FUNCTION are &%subclasses of ?CLASS.\"")
(%3AidenticalTo
"Instance(rangeSubclass_1 of Cls(AsymmetricRelation))"
"Slot(rangeSubclass_2)")
(%3ASUO-name "rangeSubclass"))
([rangeSubclass_1] of AsymmetricRelation
(%3Adocumentation "\"(&%rangeSubclass ?FUNCTION ?CLASS) means that all of the values assigned by ?FUNCTION are &%subclasses of ?CLASS.\"")
(%3AidenticalTo
"Slot(rangeSubclass_2)"
"Instance(rangeSubclass of Cls(BinaryPredicate))")
(%3ASUO-name "rangeSubclass"))
([rangeSubclass_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 42)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(rangeSubclass_1 of Cls(AsymmetricRelation))"
"Instance(rangeSubclass of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-022)\n(=>\n (and\n (rangeSubclass ?FUNCTION ?CLASS)\n (equal (AssignmentFn ?FUNCTION @ROW) ?VALUE))\n (subclass ?VALUE ?CLASS))\n\n(UAX-023)\n(=>\n (and\n (subrelation ?REL1 ?REL2)\n (rangeSubclass ?REL2 ?CLASS1))\n (rangeSubclass ?REL1 ?CLASS1))\n\n(UAX-024)\n(=>\n (and\n (rangeSubclass ?REL ?CLASS1)\n (rangeSubclass ?REL ?CLASS2))\n (or\n (subclass ?CLASS1 ?CLASS2)\n (subclass ?CLASS2 ?CLASS1)))\n")
(%3ASUO-name "rangeSubclass"))
([RankineDegree] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 795)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-300])
(%3AidenticalTo "Instance(RankineDegree_1 of Cls(UnitOfMeasure))"))
([RankineDegree_1] of UnitOfMeasure
(%3AidenticalTo "Cls(RankineDegree)")
(%3Adocumentation "A &%TemperatureMeasure. Note that 0 &%RankineDegrees is the same as the absolute zero (i.e. 0 &%KelvinDegrees)."))
([RationalNumber] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 210)
(disjoint [IrrationalNumber])
(%3AisInModule [BASE_ONTOLOGY]))
([RationalNumberFn] of UnaryFunction
(%3Adocumentation "\"(&%RationalNumberFn ?NUMBER) returns the rational representation of ?NUMBER.\"")
(%3AidenticalTo "Slot(RationalNumberFn_1)")
(%3ASUO-name "RationalNumberFn"))
([RationalNumberFn_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 517)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(RationalNumberFn of Cls(UnaryFunction))")
(%3ASUO-name "RationalNumberFn"))
([Reading] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1368)
(relatedInternalConcept "Interpreting")
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-580]))
([realization] of AsymmetricRelation
(%3Adocumentation "\"A subrelation of &%represents. (&%realization ?PROCESS ?PROP) means that ?PROCESS is a Process which expresses the content of ?PROP. Examples include a particular musical performance, which realizes the content of a musical score, or the reading of a poem.\"")
(%3AidenticalTo "Slot(realization_1)")
(%3ASUO-name "realization"))
([realization_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 471)
(relatedInternalConcept
"equivalentContentInstance"
"containsInformation")
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(realization of Cls(AsymmetricRelation))")
(%3AAXIOMS "\n(UAX-188)\n(=>\n (realization ?PROCESS ?PROP)\n (exists (?OBJ)\n (and\n (instance ?OBJ ContentBearingObject)\n (containsInformation ?OBJ ?PROP))))\n")
(%3ASUO-name "realization"))
([RealNumber] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 207)
(disjoint
[ImaginaryNumber]
[ComplexNumber])
(partition2
[RationalNumber]
[IrrationalNumber])
(partition
[NegativeRealNumber]
[NonnegativeRealNumber])
(%3AisInModule [BASE_ONTOLOGY]))
([RealNumberFn] of UnaryFunction
(%3Adocumentation "\"(RealNumberFn ?NUMBER) returns the part of ?NUMBER that is a &%RealNumber.\"")
(%3AidenticalTo "Slot(RealNumberFn_1)")
(%3ASUO-name "RealNumberFn"))
([RealNumberFn_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 518)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(RealNumberFn of Cls(UnaryFunction))")
(%3ASUO-name "RealNumberFn"))
([Reasoning] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1296)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-545]))
([ReciprocalFn] of UnaryFunction
(%3Adocumentation "\"(ReciprocalFn ?NUMBER) is the reciprocal element of ?NUMBER with respect to the multiplication operator (&%MultiplicationFn), i.e. 1/?NUMBER. Not all numbers have a reciprocal element. For example the number 0 does not. If a number ?NUMBER has a reciprocal ?RECIP, then the product of ?NUMBER and ?RECIP will be 1, e.g. 3*1/3 = 1. The reciprocal of an element is &%equal to applying the &%ExponentiationFn function to the element to the power -1.\"")
(%3AidenticalTo
"Instance(ReciprocalFn_1 of Cls(RelationExtendedToQuantities))"
"Instance(ReciprocalFn_2 of Cls(TotalValuedRelation))"
"Slot(ReciprocalFn_3)")
(%3ASUO-name "ReciprocalFn"))
([ReciprocalFn_1] of RelationExtendedToQuantities
(%3AidenticalTo
"Instance(ReciprocalFn of Cls(UnaryFunction))"
"Instance(ReciprocalFn_2 of Cls(TotalValuedRelation))"
"Slot(ReciprocalFn_3)")
(%3Adocumentation "\"(ReciprocalFn ?NUMBER) is the reciprocal element of ?NUMBER with respect to the multiplication operator (&%MultiplicationFn), i.e. 1/?NUMBER. Not all numbers have a reciprocal element. For example the number 0 does not. If a number ?NUMBER has a reciprocal ?RECIP, then the product of ?NUMBER and ?RECIP will be 1, e.g. 3*1/3 = 1. The reciprocal of an element is &%equal to applying the &%ExponentiationFn function to the element to the power -1.\"")
(%3ASUO-name "ReciprocalFn"))
([ReciprocalFn_2] of TotalValuedRelation
(%3AidenticalTo
"Instance(ReciprocalFn of Cls(UnaryFunction))"
"Instance(ReciprocalFn_1 of Cls(RelationExtendedToQuantities))"
"Slot(ReciprocalFn_3)")
(%3Adocumentation "\"(ReciprocalFn ?NUMBER) is the reciprocal element of ?NUMBER with respect to the multiplication operator (&%MultiplicationFn), i.e. 1/?NUMBER. Not all numbers have a reciprocal element. For example the number 0 does not. If a number ?NUMBER has a reciprocal ?RECIP, then the product of ?NUMBER and ?RECIP will be 1, e.g. 3*1/3 = 1. The reciprocal of an element is &%equal to applying the &%ExponentiationFn function to the element to the power -1.\"")
(%3ASUO-name "ReciprocalFn"))
([ReciprocalFn_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 519)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(ReciprocalFn of Cls(UnaryFunction))"
"Instance(ReciprocalFn_1 of Cls(RelationExtendedToQuantities))"
"Instance(ReciprocalFn_2 of Cls(TotalValuedRelation))")
(%3AAXIOMS "\n(UAX-205)\n(=>\n (instance ?NUMBER Quantity)\n (equal (ReciprocalFn ?NUMBER) (ExponentiationFn ?NUMBER -1)))\n\n(UAX-206)\n(=>\n (instance ?NUMBER Quantity)\n (equal 1 (MultiplicationFn ?NUMBER (ReciprocalFn ?NUMBER))))\n")
(%3ASUO-name "ReciprocalFn"))
([RecreationOrExercise] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1156)
(%3AisInModule [PROCESSES]))
([Rectangle] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2023)
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS [UAX-845]))
([RecurrentTimeIntervalFn] of TemporalRelation
(%3AidenticalTo
"Slot(RecurrentTimeIntervalFn_2)"
"Instance(RecurrentTimeIntervalFn_1 of Cls(BinaryFunction))")
(%3Adocumentation "\"A function that is useful for generating recurring time intervals. For example, (&%RecurrentTimeIntervalFn (&%HourFn 6 &%Day) (&%HourFn 12 &%Day)) returns the &%Class of &%TimeIntervals beginning at 6 in the morning and ending at 12 noon. For another example, (&%RecurrentTimeInterval &%Saturday &%Sunday) returns the &%Class of all weekends. For still another example, (&%RecurrentTimeInterval &%June &%August) returns the &%Class containing the academic summer period.\"")
(%3ASUO-name "RecurrentTimeIntervalFn"))
([RecurrentTimeIntervalFn_1] of BinaryFunction
(%3AidenticalTo
"Instance(RecurrentTimeIntervalFn of Cls(TemporalRelation))"
"Slot(RecurrentTimeIntervalFn_2)")
(%3Adocumentation "\"A function that is useful for generating recurring time intervals. For example, (&%RecurrentTimeIntervalFn (&%HourFn 6 &%Day) (&%HourFn 12 &%Day)) returns the &%Class of &%TimeIntervals beginning at 6 in the morning and ending at 12 noon. For another example, (&%RecurrentTimeInterval &%Saturday &%Sunday) returns the &%Class of all weekends. For still another example, (&%RecurrentTimeInterval &%June &%August) returns the &%Class containing the academic summer period.\"")
(%3ASUO-name "RecurrentTimeIntervalFn"))
([RecurrentTimeIntervalFn_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 906)
(%3ADomain2Type Class)
(%3ADomain1Type Class)
(relatedInternalConcept "IntervalFn")
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain2Class TimeInterval)
(%3AidenticalTo
"Instance(RecurrentTimeIntervalFn of Cls(TemporalRelation))"
"Instance(RecurrentTimeIntervalFn_1 of Cls(BinaryFunction))")
(%3AAXIOMS "\n(UAX-351)\n(=>\n (instance ?INTERVAL (RecurrentTimeIntervalFn ?TIMECLASS1 ?TIMECLASS2))\n (exists (?TIME1 ?TIME2)\n (and\n (instance ?TIME1 ?TIMECLASS1)\n (instance ?TIME2 ?TIMECLASS2)\n (starts ?TIME1 ?INTERVAL)\n (finishes ?TIME2 ?INTERVAL))))\n")
(%3ASUO-name "RecurrentTimeIntervalFn"))
([Red] of PrimaryColor
(%3Adocumentation "\"The &%Attribute of redness.\"")
(%3ASUO-name "Red"))
([refers] of BinaryPredicate
(%3Adocumentation "\"(&%refers ?OBJ1 ?OBJ2) means that ?OBJ1 mentions or includes a reference to ?OBJ2. Note that &%refers is more general in meaning than &%represents, because presumably something can represent something else only if it refers to this other thing. For example, an article whose topic is a recent change in the price of oil may refer to many other things, e.g. the general state of the economy, the weather in California, the prospect of global warming, the options for alternative energy sources, the stock prices of various oil companies, etc.\"")
(%3AidenticalTo "Slot(refers_1)")
(%3ASUO-name "refers"))
([refers_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 455)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(refers of Cls(BinaryPredicate))")
(%3ASUO-name "refers"))
([reflexiveOn] of BinaryPredicate
(%3Adocumentation "\"A &%BinaryRelation is reflexive on a &%SetOrClass only if every instance of the &%SetOrClass bears the relation to itself.\"")
(%3AidenticalTo
"Instance(reflexiveOn_1 of Cls(AsymmetricRelation))"
"Slot(reflexiveOn_2)")
(%3ASUO-name "reflexiveOn"))
([reflexiveOn_1] of AsymmetricRelation
(%3Adocumentation "\"A &%BinaryRelation is reflexive on a &%SetOrClass only if every instance of the &%SetOrClass bears the relation to itself.\"")
(%3AidenticalTo
"Instance(reflexiveOn of Cls(BinaryPredicate))"
"Slot(reflexiveOn_2)")
(%3ASUO-name "reflexiveOn"))
([reflexiveOn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 390)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(reflexiveOn_1 of Cls(AsymmetricRelation))"
"Instance(reflexiveOn of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-151)\n(=>\n (reflexiveOn ?RELATION ?CLASS)\n (forall (?INST)\n (=>\n (instance ?INST ?CLASS)\n (holds ?RELATION ?INST ?INST))))\n")
(%3ASUO-name "reflexiveOn"))
([ReflexiveRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 254)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-088]))
([Region] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 146)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-062]))
([RegulatoryProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1179)
(%3AisInModule [PROCESSES]))
([relatedExternalConcept] of %3ATernarySlot
(%3ALOAD-SEQUENCE 72)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(relatedInternalConcept "relatedInternalConcept")
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain2Class Entity)
(%3AidenticalTo "Instance(relatedExternalConcept_1 of Cls(TernaryPredicate))")
(%3ASUO-name "relatedExternalConcept"))
([relatedExternalConcept_1] of TernaryPredicate
(%3AidenticalTo "Slot(relatedExternalConcept)")
(%3Adocumentation "\"Used to signify a three-place relation between a concept in an external knowledge source, a concept in the SUMO, and the name of the other knowledge source.\"")
(%3ASUO-name "relatedExternalConcept"))
([relatedInternalConcept] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 71)
(relatedInternalConcept "relatedExternalConcept")
(%3AASSOCIATED-FACET [SKIFcore4_00380])
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(relatedInternalConcept_2 of Cls(EquivalenceRelation))"
"Instance(relatedInternalConcept_1 of Cls(BinaryPredicate))")
(%3ASUO-name "relatedInternalConcept"))
([relatedInternalConcept_1] of BinaryPredicate
(%3Adocumentation "\"Means that the two arguments are related concepts within the SUMO, i.e. there is a significant similarity of meaning between them. To indicate a meaning relation between a SUMO concept and a concept from another source, use the Predicate &%relatedExternalConcept.\"")
(%3AidenticalTo
"Instance(relatedInternalConcept_2 of Cls(EquivalenceRelation))"
"Slot(relatedInternalConcept)")
(%3ASUO-name "relatedInternalConcept"))
([relatedInternalConcept_2] of EquivalenceRelation
(%3Adocumentation "\"Means that the two arguments are related concepts within the SUMO, i.e. there is a significant similarity of meaning between them. To indicate a meaning relation between a SUMO concept and a concept from another source, use the Predicate &%relatedExternalConcept.\"")
(%3AidenticalTo
"Slot(relatedInternalConcept)"
"Instance(relatedInternalConcept_1 of Cls(BinaryPredicate))")
(%3ASUO-name "relatedInternalConcept"))
([Relation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 243)
(disjoint
[Quantity]
[Attribute]
[SetOrClass]
[Proposition]
[Graph]
[GraphElement])
(partition2
[TotalValuedRelation]
[PartialValuedRelation])
(disjointDecomposition
[UnaryRelation]
[BinaryRelation]
[TernaryRelation]
[QuaternaryRelation]
[QuintaryRelation]
[VariableArityRelation])
(partition
[Predicate]
[Function]
[List])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-084]))
([RelationalAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 198)
(disjoint [InternalAttribute])
(%3AisInModule [BASE_ONTOLOGY]))
([RelationExtendedToQuantities] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 385)
(%3AisInModule [BASE_ONTOLOGY])
(%3AidenticalTo "Instance(RelationExtendedToQuantities_1 of Cls(InheritableRelation))"))
([RelationExtendedToQuantities_1] of InheritableRelation
(%3Adocumentation "\"A &%RelationExtendedToQuantities is a &%Relation that, when it is true on a sequence of arguments that are &%RealNumbers, it is also true on a sequence of &%ConstantQuantites with those magnitudes in some unit of measure. For example, the &%lessThan relation is extended to quantities. This means that for all pairs of quantities ?QUANTITY1 and ?QUANTITY2, (lessThan ?QUANTITY1 ?QUANTITY2) if and only if, for some ?NUMBER1, ?NUMBER2, and ?UNIT, ?QUANTITY1 = (MeasureFn ?NUMBER1 ?UNIT), ?QUANTITY2 = (MeasureFn ?NUMBER2 ?UNIT), and (lessThan ?NUMBER1 ?NUMBER2), for all units ?UNIT on which ?QUANTITY1 and ?QUANTITY2 can be measured. Note that, when a &%RelationExtendedToQuantities is extended from &%RealNumbers to &%ConstantQuantities, the &%ConstantQuantities must be measured along the same physical dimension.\"")
(%3AidenticalTo "Cls(RelationExtendedToQuantities)"))
([RelativeComplementFn] of BinaryFunction
(%3AidenticalTo
"Instance(RelativeComplementFn_1 of Cls(TotalValuedRelation))"
"Slot(RelativeComplementFn_2)")
(%3Adocumentation "\"A &%BinaryFunction that maps two &%SetOrClasses to the difference between these &%SetOrClasses. More precisely, (&%RelativeComplementFn ?CLASS1 ?CLASS2) denotes the instances of ?CLASS1 that are not also instances of ?CLASS2.\"")
(%3ASUO-name "RelativeComplementFn"))
([RelativeComplementFn_1] of TotalValuedRelation
(%3AidenticalTo
"Slot(RelativeComplementFn_2)"
"Instance(RelativeComplementFn of Cls(BinaryFunction))")
(%3Adocumentation "\"A &%BinaryFunction that maps two &%SetOrClasses to the difference between these &%SetOrClasses. More precisely, (&%RelativeComplementFn ?CLASS1 ?CLASS2) denotes the instances of ?CLASS1 that are not also instances of ?CLASS2.\"")
(%3ASUO-name "RelativeComplementFn"))
([RelativeComplementFn_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 566)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3ADomain2Class SetOrClass)
(%3AidenticalTo
"Instance(RelativeComplementFn_1 of Cls(TotalValuedRelation))"
"Instance(RelativeComplementFn of Cls(BinaryFunction))")
(%3ASUO-name "RelativeComplementFn"))
([RelativeTimeFn] of BinaryFunction
(%3AidenticalTo
"Instance(RelativeTimeFn_1 of Cls(TemporalRelation))"
"Instance(RelativeTimeFn_2 of Cls(TotalValuedRelation))"
"Slot(RelativeTimeFn_3)")
(%3Adocumentation "\"A means of converting &%TimePositions between different &%TimeZones. (&%RelativeTimeFn ?TIME ?ZONE) denotes the &%TimePosition in &%CoordinatedUniversalTime that is contemporaneous with the &%TimePosition ?TIME in &%TimeZone ?ZONE. For example, (&%RelativeTimeFn (&%MeasureFn 14 &%Hour) &%EasternTimeZone) would return the value (&%MeasureFn 19 &%Hour).\"")
(%3ASUO-name "RelativeTimeFn"))
([RelativeTimeFn_1] of TemporalRelation
(%3AidenticalTo
"Instance(RelativeTimeFn of Cls(BinaryFunction))"
"Instance(RelativeTimeFn_2 of Cls(TotalValuedRelation))"
"Slot(RelativeTimeFn_3)")
(%3Adocumentation "\"A means of converting &%TimePositions between different &%TimeZones. (&%RelativeTimeFn ?TIME ?ZONE) denotes the &%TimePosition in &%CoordinatedUniversalTime that is contemporaneous with the &%TimePosition ?TIME in &%TimeZone ?ZONE. For example, (&%RelativeTimeFn (&%MeasureFn 14 &%Hour) &%EasternTimeZone) would return the value (&%MeasureFn 19 &%Hour).\"")
(%3ASUO-name "RelativeTimeFn"))
([RelativeTimeFn_2] of TotalValuedRelation
(%3AidenticalTo
"Instance(RelativeTimeFn_1 of Cls(TemporalRelation))"
"Instance(RelativeTimeFn of Cls(BinaryFunction))"
"Slot(RelativeTimeFn_3)")
(%3Adocumentation "\"A means of converting &%TimePositions between different &%TimeZones. (&%RelativeTimeFn ?TIME ?ZONE) denotes the &%TimePosition in &%CoordinatedUniversalTime that is contemporaneous with the &%TimePosition ?TIME in &%TimeZone ?ZONE. For example, (&%RelativeTimeFn (&%MeasureFn 14 &%Hour) &%EasternTimeZone) would return the value (&%MeasureFn 19 &%Hour).\"")
(%3ASUO-name "RelativeTimeFn"))
([RelativeTimeFn_3] of %3ATernarySlot
(%3ALOAD-SEQUENCE 1936)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [QUALITIES])
(%3ADomain2Class TimeZone)
(%3AidenticalTo
"Instance(RelativeTimeFn_1 of Cls(TemporalRelation))"
"Instance(RelativeTimeFn of Cls(BinaryFunction))"
"Instance(RelativeTimeFn_2 of Cls(TotalValuedRelation))")
(%3ASUO-name "RelativeTimeFn"))
([Releasing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1243)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-518]))
([ReligiousOrganization] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1855)
(%3AisInModule [OBJECTS]))
([ReligiousProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1160)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-486]))
([RemainderFn] of BinaryFunction
(%3AidenticalTo
"Instance(RemainderFn_2 of Cls(PartialValuedRelation))"
"Slot(RemainderFn_3)"
"Instance(RemainderFn_1 of Cls(RelationExtendedToQuantities))")
(%3Adocumentation "\"(RemainderFn ?NUMBER ?DIVISOR) is the remainder of the number ?NUMBER divided by the number ?DIVISOR. The result has the same sign as ?DIVISOR.\"")
(%3ASUO-name "RemainderFn"))
([RemainderFn_1] of RelationExtendedToQuantities
(%3AidenticalTo
"Instance(RemainderFn_2 of Cls(PartialValuedRelation))"
"Slot(RemainderFn_3)"
"Instance(RemainderFn of Cls(BinaryFunction))")
(%3Adocumentation "\"(RemainderFn ?NUMBER ?DIVISOR) is the remainder of the number ?NUMBER divided by the number ?DIVISOR. The result has the same sign as ?DIVISOR.\"")
(%3ASUO-name "RemainderFn"))
([RemainderFn_2] of PartialValuedRelation
(%3AidenticalTo
"Slot(RemainderFn_3)"
"Instance(RemainderFn of Cls(BinaryFunction))"
"Instance(RemainderFn_1 of Cls(RelationExtendedToQuantities))")
(%3Adocumentation "\"(RemainderFn ?NUMBER ?DIVISOR) is the remainder of the number ?NUMBER divided by the number ?DIVISOR. The result has the same sign as ?DIVISOR.\"")
(%3ASUO-name "RemainderFn"))
([RemainderFn_3] of %3ATernarySlot
(%3ALOAD-SEQUENCE 522)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain2Class Quantity)
(%3AidenticalTo
"Instance(RemainderFn_2 of Cls(PartialValuedRelation))"
"Instance(RemainderFn of Cls(BinaryFunction))"
"Instance(RemainderFn_1 of Cls(RelationExtendedToQuantities))")
(%3AAXIOMS "\n(UAX-207)\n(<=>\n (equal (RemainderFn ?NUMBER1 ?NUMBER2) ?NUMBER)\n (equal (AdditionFn (MultiplicationFn (FloorFn (DivisionFn ?NUMBER1 ?NUMBER2)) ?NUMBER2) ?NUMBER) ?NUMBER1))\n\n(UAX-208)\n(=>\n (equal (RemainderFn ?NUMBER1 ?NUMBER2) ?NUMBER)\n (equal (SignumFn ?NUMBER2) (SignumFn ?NUMBER)))\n\n(UAX-209)\n(=>\n (instance ?NUMBER EvenInteger)\n (equal (RemainderFn ?NUMBER 2) 0))\n\n(UAX-210)\n(=>\n (instance ?NUMBER OddInteger)\n (equal (RemainderFn ?NUMBER 2) 1))\n\n(UAX-211)\n(=>\n (instance ?PRIME PrimeNumber)\n (forall (?NUMBER)\n (=>\n (equal (RemainderFn ?PRIME ?NUMBER) 0)\n (or\n (equal ?NUMBER 1)\n (equal ?NUMBER ?PRIME)))))\n")
(%3ASUO-name "RemainderFn"))
([Remembering] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1314)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-553]))
([Removing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1222)
(relatedInternalConcept "Decreasing")
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-510]))
([Repairing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1323)
(disjoint [Damaging])
(relatedInternalConcept "Maintaining")
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-558]))
([Replication] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1132)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-471]
[UAX-472]))
([RepresentationalArtWork] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1774)
(%3AisInModule [OBJECTS]))
([represents] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 458)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(represents_1 of Cls(BinaryPredicate))")
(%3ASUO-name "represents"))
([represents_1] of BinaryPredicate
(%3AidenticalTo "Slot(represents)")
(%3ASUO-name "represents"))
([representsForAgent] of TernaryPredicate
(%3AidenticalTo "Slot(representsForAgent_1)")
(%3Adocumentation "\"A very general predicate. (&%representsForAgent ?THING ?ENTITY ?AGENT) means that the ?AGENT chooses to use the &%instance of &%Physical ?THING to 'stand for' ?ENTITY.\"")
(%3ASUO-name "representsForAgent"))
([representsForAgent_1] of %3ATernarySlot
(%3ALOAD-SEQUENCE 459)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain2Class Entity)
(%3AidenticalTo "Instance(representsForAgent of Cls(TernaryPredicate))")
(%3AAXIOMS "\n(UAX-182)\n(=>\n (representsForAgent ?REP ?ENTITY ?AGENT)\n (represents ?REP ?ENTITY))\n")
(%3ASUO-name "representsForAgent"))
([representsInLanguage] of TernaryPredicate
(%3AidenticalTo "Slot(representsInLanguage_1)")
(%3Adocumentation "\"A very general predicate. (&%representsInLanguage ?THING ?ENTITY ?LANGUAGE) means that the &%LinguisticExpression ?THING stands for ?ENTITY in the &%Language ?LANGUAGE.\"")
(%3ASUO-name "representsInLanguage"))
([representsInLanguage_1] of %3ATernarySlot
(%3ALOAD-SEQUENCE 461)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain2Class Entity)
(%3AidenticalTo "Instance(representsInLanguage of Cls(TernaryPredicate))")
(%3AAXIOMS "\n(UAX-183)\n(=>\n (representsInLanguage ?REP ?ENTITY ?LANGUAGE)\n (exists (?AGENT)\n (representsForAgent ?REP ?ENTITY ?AGENT)))\n")
(%3ASUO-name "representsInLanguage"))
([ReproductiveBody] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1664)
(%3AisInModule [OBJECTS]))
([Reptile] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1618)
(disjoint
[Amphibian]
[Fish])
(%3AisInModule [OBJECTS]))
([Requesting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1427)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-608]))
([Residence] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1763)
(partition
[PermanentResidence]
[TemporaryResidence])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-744]))
([ResidentialBuilding] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1769)
(%3AisInModule [OBJECTS]))
([resource] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 282)
(disjointRelation
[result]
[instrument])
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(resource_1 of Cls(CaseRole))")
(%3ASUO-name "resource"))
([resource_1] of CaseRole
(%3AidenticalTo "Slot(resource)")
(%3ASUO-name "resource"))
([result] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 283)
(disjointRelation
[resource]
[instrument])
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(result_1 of Cls(CaseRole))")
(%3ASUO-name "result"))
([result_1] of CaseRole
(%3AidenticalTo "Slot(result)")
(%3ASUO-name "result"))
([Right] of PositionalAttribute
(contraryAttribute_2 [Left])
(%3Adocumentation "\"This &%PositionalAttribute is derived from the left/right schema. Note that this means directly to the right, so that, if one object is to the right of another, then the projections of the two objects overlap.\"")
(%3AAXIOMS "\n(UAX-805)\n(<=>\n (orientation ?OBJ1 ?OBJ2 Right)\n (orientation ?OBJ2 ?OBJ1 Left))\n")
(%3ASUO-name "Right"))
([RightAngle] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2014)
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS [UAX-841]))
([Rigid] of ShapeAttribute
(contraryAttribute_2 [Pliable])
(%3Adocumentation "\"The shape of an &%Object with this &%Attribute cannot be altered.\"")
(%3AAXIOMS "\n(UAX-840)\n(=>\n (instance ?OBJ SelfConnectedObject)\n (or\n (attribute ?OBJ Pliable)\n (attribute ?OBJ Rigid)))\n")
(%3ASUO-name "Rigid"))
([Roadway] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1540)
(%3AisInModule [OBJECTS]))
([Rodent] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1610)
(disjoint
[AquaticMammal]
[HoofedMammal]
[Marsupial]
[Primate])
(%3AisInModule [OBJECTS]))
([Room] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1761)
(disjoint [Building])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-743]))
([RoundFn] of UnaryFunction
(%3Adocumentation "\"(&%RoundFn ?NUMBER) is the &%Integer closest to ?NUMBER on the number line. If ?NUMBER is halfway between two &%Integers (for example 3.5), it denotes the larger &%Integer.\"")
(%3AidenticalTo
"Instance(RoundFn_2 of Cls(TotalValuedRelation))"
"Slot(RoundFn_3)"
"Instance(RoundFn_1 of Cls(RelationExtendedToQuantities))")
(%3ASUO-name "RoundFn"))
([RoundFn_1] of RelationExtendedToQuantities
(%3AidenticalTo
"Instance(RoundFn_2 of Cls(TotalValuedRelation))"
"Slot(RoundFn_3)"
"Instance(RoundFn of Cls(UnaryFunction))")
(%3Adocumentation "\"(&%RoundFn ?NUMBER) is the &%Integer closest to ?NUMBER on the number line. If ?NUMBER is halfway between two &%Integers (for example 3.5), it denotes the larger &%Integer.\"")
(%3ASUO-name "RoundFn"))
([RoundFn_2] of TotalValuedRelation
(%3AidenticalTo
"Slot(RoundFn_3)"
"Instance(RoundFn of Cls(UnaryFunction))"
"Instance(RoundFn_1 of Cls(RelationExtendedToQuantities))")
(%3Adocumentation "\"(&%RoundFn ?NUMBER) is the &%Integer closest to ?NUMBER on the number line. If ?NUMBER is halfway between two &%Integers (for example 3.5), it denotes the larger &%Integer.\"")
(%3ASUO-name "RoundFn"))
([RoundFn_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 528)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(RoundFn_2 of Cls(TotalValuedRelation))"
"Instance(RoundFn of Cls(UnaryFunction))"
"Instance(RoundFn_1 of Cls(RelationExtendedToQuantities))")
(%3AAXIOMS "\n(UAX-212)\n(=>\n (equal (RoundFn ?NUMBER1) ?NUMBER2)\n (or\n (=>\n (lessThan (SubtractionFn ?NUMBER1 (FloorFn ?NUMBER1)) 0.5)\n (equal ?NUMBER2 (FloorFn ?NUMBER1)))\n (=>\n (greaterThanOrEqualTo (SubtractionFn ?NUMBER1 (FloorFn ?NUMBER1)) 0.5)\n (equal ?NUMBER2 (CeilingFn ?NUMBER1)))))\n")
(%3ASUO-name "RoundFn"))
([Running] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1207)
(disjoint [Walking])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-505]))
([SaltWaterArea] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1519)
(disjoint [FreshWaterArea])
(%3AisInModule [OBJECTS]))
([SaturationAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2051)
(%3AisInModule [QUALITIES]))
([Saturday] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 989)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS [UAX-399]))
([Second] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1000)
(relatedInternalConcept
"SecondDuration"
"SecondFn")
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS [UAX-405]))
([SecondDuration] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 690)
(relatedInternalConcept "Second")
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(SecondDuration_1 of Cls(SystemeInternationalUnit))"))
([SecondDuration_1] of SystemeInternationalUnit
(%3Adocumentation "SI &%TimeDuration. Symbol: s. It is one of the base units in SI, and it is currently defined as follows: the &%SecondDuration is the duration of 9192631770 periods of the radiation corresponding to the transition between the two hyperfine levels of the ground state of the cesium 133 atom.")
(%3AidenticalTo "Cls(SecondDuration)"))
([SecondFn] of BinaryFunction
(%3AidenticalTo
"Slot(SecondFn_2)"
"Instance(SecondFn_1 of Cls(TemporalRelation))")
(%3Adocumentation "\"A &%BinaryFunction that assigns a &%PositiveRealNumber and a subclass of &%Minutes to the &%Seconds within each &%Minute corresponding to that &%PositiveRealNumber. For example, (&%SecondFn 4 (&%MinuteFn 5 &%Hour)) is the &%Class of all fourth &%Seconds of every fifth &%Minute of every hour. For another example, (&%SecondFn 8 &%Minute) would return the eighth second of every minute. For still another example, (&%SecondFn 9 (&%MinuteFn 15 (&%HourFn 14 (&%DayFn 18 (&%MonthFn 8 (YearFn 1912)))))) denotes 9 seconds and 15 minutes after 2 PM on the 18th day of August 1912.\"")
(%3ASUO-name "SecondFn"))
([SecondFn_1] of TemporalRelation
(%3AidenticalTo
"Slot(SecondFn_2)"
"Instance(SecondFn of Cls(BinaryFunction))")
(%3Adocumentation "\"A &%BinaryFunction that assigns a &%PositiveRealNumber and a subclass of &%Minutes to the &%Seconds within each &%Minute corresponding to that &%PositiveRealNumber. For example, (&%SecondFn 4 (&%MinuteFn 5 &%Hour)) is the &%Class of all fourth &%Seconds of every fifth &%Minute of every hour. For another example, (&%SecondFn 8 &%Minute) would return the eighth second of every minute. For still another example, (&%SecondFn 9 (&%MinuteFn 15 (&%HourFn 14 (&%DayFn 18 (&%MonthFn 8 (YearFn 1912)))))) denotes 9 seconds and 15 minutes after 2 PM on the 18th day of August 1912.\"")
(%3ASUO-name "SecondFn"))
([SecondFn_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 932)
(%3ADomain2Type Class)
(%3ADomain1Type Instance)
(relatedInternalConcept "Second")
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain2Class Minute)
(%3AidenticalTo
"Instance(SecondFn_1 of Cls(TemporalRelation))"
"Instance(SecondFn of Cls(BinaryFunction))")
(%3AAXIOMS "\n(UAX-364)\n(=>\n (instance ?SECOND (SecondFn ?NUMBER ?MINUTE))\n (lessThan ?NUMBER 60))\n\n(UAX-365)\n(=>\n (and\n (instance ?SECOND1 (SecondFn ?NUMBER1 ?MINUTE))\n (instance ?SECOND2 (SecondFn ?NUMBER2 ?MINUTE))\n (equal (SubtractionFn ?NUMBER2 ?NUMBER1) 1))\n (meetsTemporally ?SECOND1 ?SECOND2))\n")
(%3ASUO-name "SecondFn"))
([Seed] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1666)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-700]))
([Seeing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1469)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-630]))
([Selecting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1298)
(%3AisInModule [PROCESSES]))
([SelfConnectedObject] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 109)
(disjoint [Collection])
(%3AisInModule [BASE_ONTOLOGY]))
([Selling] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1286)
(relatedInternalConcept "Buying")
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-539]
[UAX-540]))
([Sentence] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1714)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS
[UAX-721]
[UAX-722]))
([SentientAgent] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 179)
(%3AisInModule [BASE_ONTOLOGY]))
([Separating] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1345)
(disjoint [Combining])
(%3AisInModule [PROCESSES]))
([September] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 966)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS
[UAX-386]
[UAX-387]))
([SequenceFunction] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 361)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-138]))
([Sequestered_Axioms] of %3AModule
(%3AStartingBlock 2106)
(%3AinputFile "testin.kif")
(%3ASUO-name "Sequestered_Axioms"))
([Series] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1733)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-731]))
([SeriesVolumeFn] of BinaryFunction
(%3AidenticalTo
"Slot(SeriesVolumeFn_2)"
"Instance(SeriesVolumeFn_1 of Cls(PartialValuedRelation))")
(%3Adocumentation "\"A &%BinaryFunction that maps a type of &%Series (e.g. the Encyclopedia_Britannica or the Popular_Mechanics periodical) and a number to the volumes of the text type designated by the number.\"")
(%3ASUO-name "SeriesVolumeFn"))
([SeriesVolumeFn_1] of PartialValuedRelation
(%3AidenticalTo
"Slot(SeriesVolumeFn_2)"
"Instance(SeriesVolumeFn of Cls(BinaryFunction))")
(%3Adocumentation "\"A &%BinaryFunction that maps a type of &%Series (e.g. the Encyclopedia_Britannica or the Popular_Mechanics periodical) and a number to the volumes of the text type designated by the number.\"")
(%3ASUO-name "SeriesVolumeFn"))
([SeriesVolumeFn_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 1725)
(%3ADomain2Type Instance)
(%3ADomain1Type Class)
(%3AisInModule [OBJECTS])
(%3ADomain2Class PositiveInteger)
(%3AidenticalTo
"Instance(SeriesVolumeFn of Cls(BinaryFunction))"
"Instance(SeriesVolumeFn_1 of Cls(PartialValuedRelation))")
(%3AAXIOMS "\n(UAX-727)\n(=>\n (and\n (subclass ?TEXT Periodical)\n (equal (SeriesVolumeFn ?TEXT ?INT1) ?VOLUME1)\n (equal (SeriesVolumeFn ?TEXT ?INT2) ?VOLUME2)\n (greaterThan ?INT2 ?INT1)\n (instance ?PUB1 Publication)\n (instance ?PUB2 Publication)\n (patient ?PUB1 ?VOLUME1)\n (patient ?PUB2 ?VOLUME2)\n (date ?PUB1 ?DATE1)\n (date ?PUB2 ?DATE2))\n (before (EndFn ?DATE1) (EndFn ?DATE2)))\n\n(UAX-728)\n(=>\n (equal (SeriesVolumeFn ?SERIES ?NUMBER) ?VOLUME)\n (subsumesContentClass ?SERIES ?VOLUME))\n")
(%3ASUO-name "SeriesVolumeFn"))
([ServiceContract] of DeonticAttribute
(%3Adocumentation "\"&%Attribute that applies to &%Propositions that an &%Agent is required, by some authority, to make true.\""))
([Set] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 242)
(disjoint [Class])
(%3AisInModule [BASE_ONTOLOGY]))
([SET%2FCLASS_THEORY] of %3AModule
(%3AStartingBlock 556)
(%3AinputFile "testin.kif")
(%3ASUO-name "SET/CLASS_THEORY"))
([SetOrClass] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 240)
(disjoint
[Quantity]
[Attribute]
[Relation]
[Proposition]
[Graph]
[GraphElement])
(partition
[Set]
[Class])
(%3AisInModule [BASE_ONTOLOGY]))
([SexAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2074)
(%3AisInModule [QUALITIES]))
([SexualReproduction] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1135)
(disjoint [AsexualReproduction])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-473]))
([ShapeAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2003)
(%3AisInModule [QUALITIES]))
([ShapeChange] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1364)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-578]))
([Shooting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1237)
(%3AisInModule [PROCESSES]))
([ShoreArea] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1525)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-653]))
([sibling] of BinaryPredicate
(%3Adocumentation "\"The relationship between two &%Organisms that have the same &%mother and &%father. Note that this relationship does not hold between half-brothers, half-sisters, etc.\"")
(%3AidenticalTo
"Instance(sibling_1 of Cls(SymmetricRelation))"
"Instance(sibling_2 of Cls(IrreflexiveRelation))"
"Slot(sibling_3)")
(%3ASUO-name "sibling"))
([sibling_1] of SymmetricRelation
(%3Adocumentation "\"The relationship between two &%Organisms that have the same &%mother and &%father. Note that this relationship does not hold between half-brothers, half-sisters, etc.\"")
(%3AidenticalTo
"Instance(sibling of Cls(BinaryPredicate))"
"Instance(sibling_2 of Cls(IrreflexiveRelation))"
"Slot(sibling_3)")
(%3ASUO-name "sibling"))
([sibling_2] of IrreflexiveRelation
(%3Adocumentation "\"The relationship between two &%Organisms that have the same &%mother and &%father. Note that this relationship does not hold between half-brothers, half-sisters, etc.\"")
(%3AidenticalTo
"Instance(sibling_1 of Cls(SymmetricRelation))"
"Instance(sibling of Cls(BinaryPredicate))"
"Slot(sibling_3)")
(%3ASUO-name "sibling"))
([sibling_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1560)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(sibling_1 of Cls(SymmetricRelation))"
"Instance(sibling of Cls(BinaryPredicate))"
"Instance(sibling_2 of Cls(IrreflexiveRelation))")
(%3AAXIOMS "\n(UAX-669)\n(<=>\n (sibling ?ANIMAL1 ?ANIMAL2)\n (and\n (not (equal ?ANIMAL1 ?ANIMAL2))\n (exists (?FATHER ?MOTHER)\n (and\n (father ?ANIMAL1 ?FATHER)\n (father ?ANIMAL2 ?FATHER)\n (mother ?ANIMAL1 ?MOTHER)\n (mother ?ANIMAL2 ?MOTHER)))))\n")
(%3ASUO-name "sibling"))
([side] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1043)
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain1Type Instance)
(%3AAXIOMS "\n(UAX-431)\n(=>\n (and\n (side ?SIDE ?OBJECT)\n (part ?PART ?OBJECT)\n (not (connected ?PART ?SIDE)))\n (exists (?DIRECT)\n (orientation ?SIDE ?PART ?DIRECT)))\n\n(UAX-432)\n(<=>\n (width ?OBJECT ?WIDTH)\n (exists (?SIDE1 ?SIDE2)\n (and\n (side ?SIDE1 ?OBJECT)\n (side ?SIDE2 ?OBJECT)\n (distance ?SIDE1 ?SIDE2 ?WIDTH))))\n")
(%3ASUO-name "side"))
([sideOfFigure] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 2032)
(%3AisInModule [QUALITIES])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(sideOfFigure_1 of Cls(BinaryPredicate))")
(%3ASUO-name "sideOfFigure"))
([sideOfFigure_1] of BinaryPredicate
(%3AidenticalTo "Slot(sideOfFigure)")
(%3ASUO-name "sideOfFigure"))
([Siemens] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 727)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Siemens_1 of Cls(SystemeInternationalUnit))"))
([Siemens_1] of SystemeInternationalUnit
(%3Adocumentation "SI electric conductance measure. Symbol: S. In the case of direct current, the conductance in &%Siemens is the reciprocal of the resistance in &%Ohms; in the case of alternating current, it is the reciprocal of the impedance in ohms. siemens = A/V = m^(-2)*kg(-1)*s^(3)*A^2.")
(%3AidenticalTo "Cls(Siemens)"))
([Sievert] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 747)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Sievert_1 of Cls(SystemeInternationalUnit))"))
([Sievert_1] of SystemeInternationalUnit
(%3Adocumentation "SI dose equivalent measure. Symbol: Sv. It is a unit of biologic dose of ionizing radiation. The &%Sievert makes it possible to normalize doses of different types of radiation. It takes into account the relative biologic effectiveness of ionizing radiation, since each form of such radiation--e.g., X rays, gamma rays, neutrons-- has a slightly different effect on living tissue for a given absorbed dose. The dose equivalent of a given type of radiation (in &%Sievert) is the dose of the radiation in &%Gray multiplied by a quality factor that is based on the relative biologic effectiveness of the radiation. Accordingly, one &%Sievert is generally defined as the amount of radiation roughly equivalent in biologic effectiveness to one &%Gray of gamma radiation. &%Sievert = J/kg = m^2*s^(-2)")
(%3AidenticalTo "Cls(Sievert)"))
([SignumFn] of UnaryFunction
(%3Adocumentation "\"(SignumFn ?NUMBER) denotes the sign of ?NUMBER. This is one of the following values: -1, 1, or 0.\"")
(%3AidenticalTo
"Instance(SignumFn_1 of Cls(TotalValuedRelation))"
"Slot(SignumFn_2)")
(%3ASUO-name "SignumFn"))
([SignumFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(SignumFn of Cls(UnaryFunction))"
"Slot(SignumFn_2)")
(%3Adocumentation "\"(SignumFn ?NUMBER) denotes the sign of ?NUMBER. This is one of the following values: -1, 1, or 0.\"")
(%3ASUO-name "SignumFn"))
([SignumFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 530)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(SignumFn of Cls(UnaryFunction))"
"Instance(SignumFn_1 of Cls(TotalValuedRelation))")
(%3AAXIOMS "\n(UAX-213)\n(=>\n (instance ?NUMBER NonnegativeRealNumber)\n (or\n (equal (SignumFn ?NUMBER) 1)\n (equal (SignumFn ?NUMBER) 0)))\n\n(UAX-214)\n(=>\n (instance ?NUMBER PositiveRealNumber)\n (equal (SignumFn ?NUMBER) 1))\n\n(UAX-215)\n(=>\n (instance ?NUMBER NegativeRealNumber)\n (equal (SignumFn ?NUMBER) -1))\n")
(%3ASUO-name "SignumFn"))
([SineFn] of UnaryFunction
(%3Adocumentation "\"(&%SineFn ?DEGREE) is the sine of the &%PlaneAngleMeasure ?DEGREE. The sine of ?DEGREE is the ratio of the side opposite ?DEGREE to the hypotenuse in a right-angled triangle.\"")
(%3AidenticalTo
"Instance(SineFn_1 of Cls(TotalValuedRelation))"
"Slot(SineFn_2)")
(%3ASUO-name "SineFn"))
([SineFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(SineFn of Cls(UnaryFunction))"
"Slot(SineFn_2)")
(%3Adocumentation "\"(&%SineFn ?DEGREE) is the sine of the &%PlaneAngleMeasure ?DEGREE. The sine of ?DEGREE is the ratio of the side opposite ?DEGREE to the hypotenuse in a right-angled triangle.\"")
(%3ASUO-name "SineFn"))
([SineFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 534)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(SineFn of Cls(UnaryFunction))"
"Instance(SineFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "SineFn"))
([Singing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1204)
(%3AisInModule [PROCESSES]))
([SingleFamilyResidence] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1771)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-747]))
([SingleValuedRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 246)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-085])
(%3AidenticalTo "Instance(SingleValuedRelation_1 of Cls(InheritableRelation))"))
([SingleValuedRelation_1] of InheritableRelation
(%3Adocumentation "\"A &%Relation is a &%SingleValuedRelation just in case an assignment of values to every argument position except the last one determines at most one assignment for the last argument position. Note that not all &%SingleValuedRelations are &%TotalValuedRelations.\"")
(%3AidenticalTo "Cls(SingleValuedRelation)"))
([sister] of IrreflexiveRelation
(%3Adocumentation "\"The general relationship of being a sister. (&%sister ?WOMAN ?PERSON) means that ?WOMAN is the sister of ?PERSON.\"")
(%3AidenticalTo
"Instance(sister_1 of Cls(TransitiveRelation))"
"Slot(sister_2)")
(%3ASUO-name "sister"))
([sister_1] of TransitiveRelation
(%3Adocumentation "\"The general relationship of being a sister. (&%sister ?WOMAN ?PERSON) means that ?WOMAN is the sister of ?PERSON.\"")
(%3AidenticalTo
"Instance(sister of Cls(IrreflexiveRelation))"
"Slot(sister_2)")
(%3ASUO-name "sister"))
([sister_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1565)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(sister of Cls(IrreflexiveRelation))"
"Instance(sister_1 of Cls(TransitiveRelation))")
(%3ASUO-name "sister"))
([Sitting] of BodyPosition
(%3Adocumentation "\"The &%BodyPosition of being recumbent, i.e. knees bent and back side supported.\"")
(%3ASUO-name "Sitting"))
([SKIFcore3_00375] of %3ASynonym
(%3AhasUsage deprecated)
(%3AhasFrequency 0.1)
(%3AinLanguage [English])
(%3AsynonymousTerm "something useful"))
([SKIFcore4_00380] of %3ASTANDARD-FACET
(%3AASSOCIATED-SLOT [relatedInternalConcept]))
([SKIFcore4_00381] of %3ASTANDARD-FACET
(%3AASSOCIATED-SLOT [disjointRelation]))
([SKIFcore4_00382] of %3ASTANDARD-FACET
(%3AASSOCIATED-SLOT [%3ASYNONYMS]))
([SKIFcore4_00393] of %3ASTANDARD-FACET
(%3AASSOCIATED-SLOT [%3AidenticalTo]))
([SkinFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%Hole to the skin of the &%Hole. The skin of a &%Hole is the fusion of those superficial parts (see &%superficialPart) of the &%Hole's principal host (see &%PrincipalHostFn) with which the &%Hole is externally connected.\"")
(%3AidenticalTo
"Instance(SkinFn_2 of Cls(TotalValuedRelation))"
"Instance(SkinFn_3 of Cls(AsymmetricRelation))"
"Slot(SkinFn_4)"
"Instance(SkinFn_1 of Cls(SpatialRelation))")
(%3ASUO-name "SkinFn"))
([SkinFn_1] of SpatialRelation
(%3AidenticalTo
"Instance(SkinFn_2 of Cls(TotalValuedRelation))"
"Instance(SkinFn_3 of Cls(AsymmetricRelation))"
"Slot(SkinFn_4)"
"Instance(SkinFn of Cls(UnaryFunction))")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%Hole to the skin of the &%Hole. The skin of a &%Hole is the fusion of those superficial parts (see &%superficialPart) of the &%Hole's principal host (see &%PrincipalHostFn) with which the &%Hole is externally connected.\"")
(%3ASUO-name "SkinFn"))
([SkinFn_2] of TotalValuedRelation
(%3AidenticalTo
"Instance(SkinFn_3 of Cls(AsymmetricRelation))"
"Slot(SkinFn_4)"
"Instance(SkinFn of Cls(UnaryFunction))"
"Instance(SkinFn_1 of Cls(SpatialRelation))")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%Hole to the skin of the &%Hole. The skin of a &%Hole is the fusion of those superficial parts (see &%superficialPart) of the &%Hole's principal host (see &%PrincipalHostFn) with which the &%Hole is externally connected.\"")
(%3ASUO-name "SkinFn"))
([SkinFn_3] of AsymmetricRelation
(%3Adocumentation "\"A &%UnaryFunction that maps a &%Hole to the skin of the &%Hole. The skin of a &%Hole is the fusion of those superficial parts (see &%superficialPart) of the &%Hole's principal host (see &%PrincipalHostFn) with which the &%Hole is externally connected.\"")
(%3AidenticalTo
"Instance(SkinFn_2 of Cls(TotalValuedRelation))"
"Slot(SkinFn_4)"
"Instance(SkinFn of Cls(UnaryFunction))"
"Instance(SkinFn_1 of Cls(SpatialRelation))")
(%3ASUO-name "SkinFn"))
([SkinFn_4] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1099)
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(SkinFn_2 of Cls(TotalValuedRelation))"
"Instance(SkinFn_3 of Cls(AsymmetricRelation))"
"Instance(SkinFn of Cls(UnaryFunction))"
"Instance(SkinFn_1 of Cls(SpatialRelation))")
(%3AAXIOMS "\n(UAX-458)\n(=>\n (equal ?OBJ1 (SkinFn ?HOLE))\n (forall (?OBJ2)\n (<=>\n (overlapsSpatially ?OBJ2 ?OBJ1)\n (exists (?OBJ3)\n (and\n (superficialPart ?OBJ3 (PrincipalHostFn ?HOLE))\n (meetsSpatially ?HOLE ?OBJ3)\n (overlapsSpatially ?OBJ2 ?OBJ3))))))\n")
(%3ASUO-name "SkinFn"))
([Slug] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 792)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-299])
(%3AidenticalTo "Instance(Slug_1 of Cls(UnitOfMeasure))"))
([Slug_1] of UnitOfMeasure
(%3AidenticalTo "Cls(Slug)")
(%3Adocumentation "English mass unit of slugs."))
([smaller] of BinaryPredicate
(%3Adocumentation "\"(&%smaller ?OBJ1 ?OBJ2) simply means that ?OBJ1 is smaller, with respect to all &%LengthMeasures, than ?OBJ2.\"")
(%3AidenticalTo
"Instance(smaller_2 of Cls(TransitiveRelation))"
"Instance(smaller_3 of Cls(IrreflexiveRelation))"
"Instance(smaller_1 of Cls(SpatialRelation))"
"Slot(smaller_4)")
(%3ASUO-name "smaller"))
([smaller_1] of SpatialRelation
(%3AidenticalTo
"Instance(smaller_2 of Cls(TransitiveRelation))"
"Instance(smaller_3 of Cls(IrreflexiveRelation))"
"Instance(smaller of Cls(BinaryPredicate))"
"Slot(smaller_4)")
(%3Adocumentation "\"(&%smaller ?OBJ1 ?OBJ2) simply means that ?OBJ1 is smaller, with respect to all &%LengthMeasures, than ?OBJ2.\"")
(%3ASUO-name "smaller"))
([smaller_2] of TransitiveRelation
(%3Adocumentation "\"(&%smaller ?OBJ1 ?OBJ2) simply means that ?OBJ1 is smaller, with respect to all &%LengthMeasures, than ?OBJ2.\"")
(%3AidenticalTo
"Instance(smaller_3 of Cls(IrreflexiveRelation))"
"Instance(smaller_1 of Cls(SpatialRelation))"
"Instance(smaller of Cls(BinaryPredicate))"
"Slot(smaller_4)")
(%3ASUO-name "smaller"))
([smaller_3] of IrreflexiveRelation
(%3Adocumentation "\"(&%smaller ?OBJ1 ?OBJ2) simply means that ?OBJ1 is smaller, with respect to all &%LengthMeasures, than ?OBJ2.\"")
(%3AidenticalTo
"Instance(smaller_2 of Cls(TransitiveRelation))"
"Instance(smaller_1 of Cls(SpatialRelation))"
"Instance(smaller of Cls(BinaryPredicate))"
"Slot(smaller_4)")
(%3ASUO-name "smaller"))
([smaller_4] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 844)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(smaller_2 of Cls(TransitiveRelation))"
"Instance(smaller_3 of Cls(IrreflexiveRelation))"
"Instance(smaller_1 of Cls(SpatialRelation))"
"Instance(smaller of Cls(BinaryPredicate))")
(%3ASUO-name "smaller"))
([Smelling] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1472)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-631]))
([Smoke] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1627)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-680]))
([SocialInteraction] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1401)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-597]))
([SocialRole] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1937)
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS [UAX-815]))
([SocialUnit] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1825)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-773]))
([Solid] of PhysicalState
(contraryAttribute_2
[Liquid]
[Gas])
(%3Adocumentation "\"An &%Object has the &%Attribute of &%Solid if it has a fixed shape and a fixed volume.\"")
(%3ASUO-name "Solid"))
([SolidAngleMeasure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 653)
(disjoint [PlaneAngleMeasure])
(%3AisInModule [UNITS_OF_MEASURE]))
([Solution] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 143)
(%3AisInModule [BASE_ONTOLOGY]))
([son] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1563)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3ASUO-name "son"))
([SoundAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2050)
(%3AisInModule [QUALITIES]))
([South] of DirectionalAttribute
(contraryAttribute_2
[North]
[East]
[West])
(%3Adocumentation "\"The compass direction of &%South.\"")
(%3AAXIOMS "\n(UAX-798)\n(<=>\n (orientation ?OBJ1 ?OBJ2 North)\n (orientation ?OBJ2 ?OBJ1 South))\n")
(%3ASUO-name "South"))
([SpatialRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 295)
(%3AisInModule [BASE_ONTOLOGY])
(%3AidenticalTo "Instance(SpatialRelation_1 of Cls(InheritableRelation))"))
([SpatialRelation_1] of InheritableRelation
(%3Adocumentation "\"The &%Class of &%Relations that are spatial in a wide sense. This &%Class includes mereological relations and topological relations.\"")
(%3AidenticalTo "Cls(SpatialRelation)"))
([Speaking] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1203)
(%3AisInModule [PROCESSES]))
([SpeedFn] of TotalValuedRelation
(%3AidenticalTo
"Instance(SpeedFn_2 of Cls(BinaryFunction))"
"Slot(SpeedFn_1)")
(%3Adocumentation "\"Maps an instance of &%LengthMeasure and an instance of &%TimeDuration to the speed represented by this proportion of distance and time. For example, (&%SpeedFn (&%MeasureFn 55 &%Mile)(&%MeasureFn 1 &%HourDuration)) represents the velocity of 55 miles per hour.\"")
(%3ASUO-name "SpeedFn"))
([SpeedFn_1] of %3ATernarySlot
(%3ALOAD-SEQUENCE 680)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain2Class TimeDuration)
(%3AidenticalTo
"Instance(SpeedFn_2 of Cls(BinaryFunction))"
"Instance(SpeedFn of Cls(TotalValuedRelation))")
(%3ASUO-name "SpeedFn"))
([SpeedFn_2] of BinaryFunction
(%3AidenticalTo
"Slot(SpeedFn_1)"
"Instance(SpeedFn of Cls(TotalValuedRelation))")
(%3ASUO-name "SpeedFn"))
([SpokenHumanLanguage] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 173)
(disjoint [ManualHumanLanguage])
(%3AisInModule [BASE_ONTOLOGY]))
([Spore] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1670)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-701]))
([Sport] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1455)
(%3AisInModule [PROCESSES]))
([spouse] of IrreflexiveRelation
(%3Adocumentation "\"The relationship of marriage between two &%Humans.\"")
(%3AidenticalTo
"Instance(spouse_1 of Cls(SymmetricRelation))"
"Slot(spouse_2)"
"Instance(spouse_3 of Cls(BinaryPredicate))")
(%3ASUO-name "spouse"))
([spouse_1] of SymmetricRelation
(%3Adocumentation "\"The relationship of marriage between two &%Humans.\"")
(%3AidenticalTo
"Instance(spouse of Cls(IrreflexiveRelation))"
"Slot(spouse_2)"
"Instance(spouse_3 of Cls(BinaryPredicate))")
(%3ASUO-name "spouse"))
([spouse_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1833)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(spouse of Cls(IrreflexiveRelation))"
"Instance(spouse_1 of Cls(SymmetricRelation))"
"Instance(spouse_3 of Cls(BinaryPredicate))")
(%3ASUO-name "spouse"))
([spouse_3] of BinaryPredicate
(%3AidenticalTo
"Instance(spouse of Cls(IrreflexiveRelation))"
"Instance(spouse_1 of Cls(SymmetricRelation))"
"Slot(spouse_2)")
(%3ASUO-name "spouse"))
([Square] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2025)
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS [UAX-846]))
([SquareRootFn] of UnaryFunction
(%3Adocumentation "\"(SquareRootFn ?NUMBER) is the principal square root of ?NUMBER.\"")
(%3AidenticalTo "Slot(SquareRootFn_1)")
(%3ASUO-name "SquareRootFn"))
([SquareRootFn_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 535)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(SquareRootFn of Cls(UnaryFunction))")
(%3AAXIOMS "\n(UAX-216)\n(=>\n (equal (SquareRootFn ?NUMBER1) ?NUMBER2)\n (equal (MultiplicationFn ?NUMBER2 ?NUMBER2) ?NUMBER1))\n")
(%3ASUO-name "SquareRootFn"))
([Standing] of BodyPosition
(%3Adocumentation "\"The &%BodyPosition of being upright, i.e. being fully extended and supported by nothing other than one's own feet.\"")
(%3AAXIOMS "\n(UAX-860)\n(=>\n (and\n (instance ?AMBULATE Ambulating)\n (agent ?AMBULATE ?AGENT))\n (attribute ?AGENT Standing))\n")
(%3ASUO-name "Standing"))
([starts] of BinaryPredicate
(%3Adocumentation "\"(&%starts ?INTERVAL1 ?INTERVAL2) means that ?INTERVAL1 and ?INTERVAL2 are both &%TimeIntervals that have the same initial &%TimePoint and that ?INTERVAL1 ends before ?INTERVAL2.\"")
(%3AidenticalTo
"Instance(starts_1 of Cls(TemporalRelation))"
"Slot(starts_4)"
"Instance(starts_2 of Cls(TransitiveRelation))"
"Instance(starts_3 of Cls(IrreflexiveRelation))")
(%3ASUO-name "starts"))
([starts_1] of TemporalRelation
(%3AidenticalTo
"Slot(starts_4)"
"Instance(starts of Cls(BinaryPredicate))"
"Instance(starts_2 of Cls(TransitiveRelation))"
"Instance(starts_3 of Cls(IrreflexiveRelation))")
(%3Adocumentation "\"(&%starts ?INTERVAL1 ?INTERVAL2) means that ?INTERVAL1 and ?INTERVAL2 are both &%TimeIntervals that have the same initial &%TimePoint and that ?INTERVAL1 ends before ?INTERVAL2.\"")
(%3ASUO-name "starts"))
([starts_2] of TransitiveRelation
(%3Adocumentation "\"(&%starts ?INTERVAL1 ?INTERVAL2) means that ?INTERVAL1 and ?INTERVAL2 are both &%TimeIntervals that have the same initial &%TimePoint and that ?INTERVAL1 ends before ?INTERVAL2.\"")
(%3AidenticalTo
"Instance(starts_1 of Cls(TemporalRelation))"
"Slot(starts_4)"
"Instance(starts of Cls(BinaryPredicate))"
"Instance(starts_3 of Cls(IrreflexiveRelation))")
(%3ASUO-name "starts"))
([starts_3] of IrreflexiveRelation
(%3Adocumentation "\"(&%starts ?INTERVAL1 ?INTERVAL2) means that ?INTERVAL1 and ?INTERVAL2 are both &%TimeIntervals that have the same initial &%TimePoint and that ?INTERVAL1 ends before ?INTERVAL2.\"")
(%3AidenticalTo
"Instance(starts_1 of Cls(TemporalRelation))"
"Slot(starts_4)"
"Instance(starts of Cls(BinaryPredicate))"
"Instance(starts_2 of Cls(TransitiveRelation))")
(%3ASUO-name "starts"))
([starts_4] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 874)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(starts_1 of Cls(TemporalRelation))"
"Instance(starts of Cls(BinaryPredicate))"
"Instance(starts_2 of Cls(TransitiveRelation))"
"Instance(starts_3 of Cls(IrreflexiveRelation))")
(%3AAXIOMS "\n(UAX-333)\n(<=>\n (starts ?INTERVAL1 ?INTERVAL2)\n (and\n (equal\n (BeginFn ?INTERVAL1)\n (BeginFn ?INTERVAL2))\n (before\n (EndFn ?INTERVAL1)\n (EndFn ?INTERVAL2))))\n")
(%3ASUO-name "starts"))
([StateChange] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1489)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-637]))
([StateOfMind] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2095)
(disjoint [TraitAttribute])
(%3AisInModule [QUALITIES]))
([StateOrProvince] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1534)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-658]))
([StaticWaterArea] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1522)
(disjoint [StreamWaterArea])
(%3AisInModule [OBJECTS]))
([Stating] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1421)
(disjoint
[Supposing]
[Directing]
[Committing]
[ExpressingInLanguage]
[Declaring])
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-606]))
([StationaryArtifact] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1757)
(disjoint
[Fabric]
[Clothing])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-741]))
([Steering] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1252)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-522]))
([Steradian] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 706)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Steradian_1 of Cls(SystemeInternationalUnit))"))
([Steradian_1] of SystemeInternationalUnit
(%3Adocumentation "SI solid angle measure. Symbol: sr. It is the solid angle of a sphere subtended by a portion of the surface whose area is equal to the square of the sphere's radius. Another definition is: the solid angle which, having its vertex in the center of the sphere, cuts off an area of the surface of the sphere equal to that of a square with sides of length equal to the radius of the sphere. &%Steradian = m^2/m^2 = 1.")
(%3AidenticalTo "Cls(Steradian)"))
([StreamWaterArea] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1521)
(disjoint [StaticWaterArea])
(%3AisInModule [OBJECTS]))
([STRUCTURAL_ONTOLOGY] of %3AModule
(%3AStartingBlock 7)
(%3AinputFile "testin.kif")
(%3ASUO-name "STRUCTURAL_ONTOLOGY"))
([SubatomicParticle] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 132)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-057]))
([subAttribute] of BinaryPredicate
(%3Adocumentation "\"Means that the second argument can be ascribed to everything which has the first argument ascribed to it.\"")
(%3AidenticalTo
"Slot(subAttribute_2)"
"Instance(subAttribute_1 of Cls(PartialOrderingRelation))")
(%3ASUO-name "subAttribute"))
([subAttribute%240] of %3ASUMOProposition
(%3ALOAD-SEQUENCE 1966)
(%3AliteralTranscription "(subAttribute Law Obligation)")
(%3AisInModule [QUALITIES])
(%3Adocumentation "\"&%Attribute that applies to &%Propositions that are required by a government or a branch of the government and that are enforced with penalties for noncompliance. These &%Propositions may be codified as legislation or they may be more informal, as in the case of government policy.\"")
(%3AargumentList
"subAttribute"
"Law"
"Obligation"))
([subAttribute%241] of %3ASUMOProposition
(%3ALOAD-SEQUENCE 1967)
(%3AliteralTranscription "(subAttribute Promise Obligation)")
(%3AisInModule [QUALITIES])
(%3Adocumentation "\"&%Attribute that applies to &%Propositions that an &%Agent promises to make true. &%Promises may be implicit or explicit. They may be expressed in a written or verbal or gestural manner.\"")
(%3AargumentList
"subAttribute"
"Promise"
"Obligation"))
([subAttribute%2413] of %3ASUMOProposition
(%3ALOAD-SEQUENCE 1977)
(%3AliteralTranscription "(subAttribute Liquid Fluid)")
(%3AisInModule [QUALITIES])
(%3Adocumentation "\"An &%Object has the &%Attribute of &%Liquid if it has a fixed volume but not a fixed shape.\"")
(%3AargumentList
"subAttribute"
"Liquid"
"Fluid"))
([subAttribute%2414] of %3ASUMOProposition
(%3ALOAD-SEQUENCE 1980)
(%3AliteralTranscription "(subAttribute Gas Fluid)")
(%3AisInModule [QUALITIES])
(%3Adocumentation "\"An &%Object has the &%Attribute of &%Gas if it has neither a fixed volume nor a fixed shape.\"")
(%3AargumentList
"subAttribute"
"Gas"
"Fluid"))
([subAttribute%2415] of %3ASUMOProposition
(%3ALOAD-SEQUENCE 2055)
(%3AliteralTranscription "(subAttribute Wet Damp)")
(%3AisInModule [QUALITIES])
(%3Adocumentation "\"An &%Attribute which indicates that the associated &%Object is fully saturated with a &%Liquid, i.e. every part of the &%Object has a subpart which is a &%Liquid.\"")
(%3AargumentList
"subAttribute"
"Wet"
"Damp"))
([subAttribute%2416] of %3ASUMOProposition
(%3ALOAD-SEQUENCE 2072)
(%3AliteralTranscription "(subAttribute Dead Unconscious)")
(%3AisInModule [QUALITIES])
(%3Adocumentation "\"This &%Attribute applies to &%Organisms that are not alive.\"")
(%3AargumentList
"subAttribute"
"Dead"
"Unconscious"))
([subAttribute%2418] of %3ASUMOProposition
(%3ALOAD-SEQUENCE 2086)
(%3AliteralTranscription "(subAttribute Larval NonFullyFormed)")
(%3AisInModule [QUALITIES])
(%3Adocumentation "\"Form of most &%Invertebrates, &%Amphibians, and &%Fish immediately after they hatch. This form is fundamentally unlike the adult form, and metamorphosis is required to reach the latter form.\"")
(%3AargumentList
"subAttribute"
"Larval"
"NonFullyFormed"))
([subAttribute%2419] of %3ASUMOProposition
(%3ALOAD-SEQUENCE 2088)
(%3AliteralTranscription "(subAttribute Embryonic NonFullyFormed)")
(%3AisInModule [QUALITIES])
(%3Adocumentation "\"The stage of an &%Organism or an &%AnatomicalStructure that exists only before the &%Organism is born. &%Mammals, for example, have this &%Attribute only prior to their birth.\"")
(%3AargumentList
"subAttribute"
"Embryonic"
"NonFullyFormed"))
([subAttribute%242] of %3ASUMOProposition
(%3ALOAD-SEQUENCE 1969)
(%3AliteralTranscription "(subAttribute Contract Promise)")
(%3AisInModule [QUALITIES])
(%3Adocumentation "\"&%Attribute that applies to &%Propositions where something is promised in return, i.e. a reciprocal promise.\"")
(%3AargumentList
"subAttribute"
"Contract"
"Promise"))
([subAttribute%243] of %3ASUMOProposition
(%3ALOAD-SEQUENCE 1970)
(%3AliteralTranscription "(subAttribute PurchaseContract Contract)")
(%3AisInModule [QUALITIES])
(%3Adocumentation "\"A &%Contract between two &%Agents in which one &%Agent agrees to render the other some good or service in exchange for currency.\"")
(%3AargumentList
"subAttribute"
"PurchaseContract"
"Contract"))
([subAttribute%244] of %3ASUMOProposition
(%3ALOAD-SEQUENCE 1971)
(%3AliteralTranscription "(subAttribute ServiceContract Contract)")
(%3AisInModule [QUALITIES])
(%3Adocumentation "\"A &%Contract where an &%Agent agrees to perform a service for another &%Agent (usually for a price).\"")
(%3AargumentList
"subAttribute"
"ServiceContract"
"Contract"))
([subAttribute%245] of %3ASUMOProposition
(%3ALOAD-SEQUENCE 1972)
(%3AliteralTranscription "(subAttribute Warranty ServiceContract)")
(%3AisInModule [QUALITIES])
(%3Adocumentation "\"A &%Contract that states the cirumstances under which defects in the product will be corrected for no charge. A &%Warranty is usually limited to a length of time that is specified in the &%Warranty itself. A &%Warranty also includes information about what is not covered and actions that invalidate the &%Warranty.\"")
(%3AargumentList
"subAttribute"
"Warranty"
"ServiceContract"))
([subAttribute%246] of %3ASUMOProposition
(%3ALOAD-SEQUENCE 1973)
(%3AliteralTranscription "(subAttribute NakedPromise Promise)")
(%3AisInModule [QUALITIES])
(%3Adocumentation "\"A &%Promise where nothing is promised in return, i.e. a nudum pactum.\"")
(%3AargumentList
"subAttribute"
"NakedPromise"
"Promise"))
([subAttribute%248] of %3ASUMOProposition
(%3ALOAD-SEQUENCE 2099)
(%3AliteralTranscription "(subAttribute Asleep Unconscious)")
(%3AisInModule [QUALITIES])
(%3Adocumentation "\"This &%Attribute applies to &%Organisms that are sleeping.\"")
(%3AargumentList
"subAttribute"
"Asleep"
"Unconscious"))
([subAttribute_1] of PartialOrderingRelation
(%3Adocumentation "\"Means that the second argument can be ascribed to everything which has the first argument ascribed to it.\"")
(%3AidenticalTo
"Slot(subAttribute_2)"
"Instance(subAttribute of Cls(BinaryPredicate))")
(%3ASUO-name "subAttribute"))
([subAttribute_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 76)
(disjointRelation [successorAttribute_2])
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(subAttribute_1 of Cls(PartialOrderingRelation))"
"Instance(subAttribute of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-040)\n(=>\n (subAttribute ?ATTR1 ?ATTR2)\n (forall (?OBJ)\n (=>\n (property ?OBJ ?ATTR1)\n (property ?OBJ ?ATTR2))))\n\n(UAX-041)\n(=>\n (and\n (subAttribute ?ATTR1 ?ATTR2)\n (instance ?ATTR2 ?CLASS))\n (instance ?ATTR1 ?CLASS))\n")
(%3ASUO-name "subAttribute"))
([subclass] of BinaryPredicate
(%3Adocumentation "\"(&%subclass ?CLASS1 ?CLASS2) means that ?CLASS1 is a subclass of ?CLASS2, i.e. every instance of ?CLASS1 is also an instance of ?CLASS2. A class may have multiple superclasses and subclasses.\"")
(%3AidenticalTo
"Slot(subclass_2)"
"Instance(subclass_1 of Cls(PartialOrderingRelation))")
(%3ASUO-name "subclass"))
([subclass_1] of PartialOrderingRelation
(%3Adocumentation "\"(&%subclass ?CLASS1 ?CLASS2) means that ?CLASS1 is a subclass of ?CLASS2, i.e. every instance of ?CLASS1 is also an instance of ?CLASS2. A class may have multiple superclasses and subclasses.\"")
(%3AidenticalTo
"Slot(subclass_2)"
"Instance(subclass of Cls(BinaryPredicate))")
(%3ASUO-name "subclass"))
([subclass_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 16)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(subclass of Cls(BinaryPredicate))"
"Instance(subclass_1 of Cls(PartialOrderingRelation))")
(%3AAXIOMS "\n(UAX-003)\n(<=>\n (subclass ?SUBCLASS ?CLASS)\n (and\n (instance ?SUBCLASS SetOrClass)\n (instance ?CLASS SetOrClass)\n (forall (?INST)\n (=>\n (instance ?INST ?SUBCLASS)\n (instance ?INST ?CLASS)))))\n")
(%3ASUO-name "subclass"))
([subCollection] of BinaryPredicate
(%3Adocumentation "\"(&%subCollection ?COLL1 ?COLL2) means that the &%Collection ?COLL1 is a proper part of the &%Collection ?COLL2.\"")
(%3AidenticalTo
"Instance(subCollection_1 of Cls(PartialOrderingRelation))"
"Slot(subCollection_2)")
(%3ASUO-name "subCollection"))
([subCollection_1] of PartialOrderingRelation
(%3Adocumentation "\"(&%subCollection ?COLL1 ?COLL2) means that the &%Collection ?COLL1 is a proper part of the &%Collection ?COLL2.\"")
(%3AidenticalTo
"Instance(subCollection of Cls(BinaryPredicate))"
"Slot(subCollection_2)")
(%3ASUO-name "subCollection"))
([subCollection_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 151)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(subCollection of Cls(BinaryPredicate))"
"Instance(subCollection_1 of Cls(PartialOrderingRelation))")
(%3AAXIOMS "\n(UAX-064)\n(<=>\n (subCollection ?COLL1 ?COLL2)\n (and\n (instance ?COLL1 Collection)\n (instance ?COLL2 Collection)\n (forall (?MEMBER)\n (=>\n (member ?MEMBER ?COLL1)\n (member ?MEMBER ?COLL2)))))\n")
(%3ASUO-name "subCollection"))
([subGraph] of BinaryPredicate
(%3Adocumentation "\"The relation between two &%Graphs when one &%Graph is a part of the other. (&%subGraph ?GRAPH1 ?GRAPH2) means that ?GRAPH1 is a part of ?GRAPH2.\"")
(%3AidenticalTo
"Slot(subGraph_3)"
"Instance(subGraph_1 of Cls(ReflexiveRelation))"
"Instance(subGraph_2 of Cls(TransitiveRelation))")
(%3ASUO-name "subGraph"))
([subGraph_1] of ReflexiveRelation
(%3Adocumentation "\"The relation between two &%Graphs when one &%Graph is a part of the other. (&%subGraph ?GRAPH1 ?GRAPH2) means that ?GRAPH1 is a part of ?GRAPH2.\"")
(%3AidenticalTo
"Slot(subGraph_3)"
"Instance(subGraph of Cls(BinaryPredicate))"
"Instance(subGraph_2 of Cls(TransitiveRelation))")
(%3ASUO-name "subGraph"))
([subGraph_2] of TransitiveRelation
(%3Adocumentation "\"The relation between two &%Graphs when one &%Graph is a part of the other. (&%subGraph ?GRAPH1 ?GRAPH2) means that ?GRAPH1 is a part of ?GRAPH2.\"")
(%3AidenticalTo
"Slot(subGraph_3)"
"Instance(subGraph_1 of Cls(ReflexiveRelation))"
"Instance(subGraph of Cls(BinaryPredicate))")
(%3ASUO-name "subGraph"))
([subGraph_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 614)
(%3AisInModule [GRAPH_THEORY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(subGraph_1 of Cls(ReflexiveRelation))"
"Instance(subGraph of Cls(BinaryPredicate))"
"Instance(subGraph_2 of Cls(TransitiveRelation))")
(%3AAXIOMS "\n(UAX-253)\n(=>\n (and\n (subGraph ?GRAPH1 ?GRAPH2)\n (graphPart ?ELEMENT ?GRAPH1))\n (graphPart ?ELEMENT ?GRAPH2))\n")
(%3ASUO-name "subGraph"))
([SubjectiveAssessmentAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1952)
(disjoint [ObjectiveNorm])
(%3AisInModule [QUALITIES]))
([subList] of BinaryPredicate
(%3Adocumentation "\"(&%subList ?LIST1 ?LIST2) means that ?LIST1 is a sublist of ?LIST2, i.e. every element of ?LIST1 is an element of ?LIST2 and the elements that are common to both &%Lists have the same order in both &%Lists.\"")
(%3AidenticalTo
"Slot(subList_2)"
"Instance(subList_1 of Cls(PartialOrderingRelation))")
(%3ASUO-name "subList"))
([subList_1] of PartialOrderingRelation
(%3Adocumentation "\"(&%subList ?LIST1 ?LIST2) means that ?LIST1 is a sublist of ?LIST2, i.e. every element of ?LIST1 is an element of ?LIST2 and the elements that are common to both &%Lists have the same order in both &%Lists.\"")
(%3AidenticalTo
"Instance(subList of Cls(BinaryPredicate))"
"Slot(subList_2)")
(%3ASUO-name "subList"))
([subList_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 349)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(subList of Cls(BinaryPredicate))"
"Instance(subList_1 of Cls(PartialOrderingRelation))")
(%3AAXIOMS "\n(UAX-132)\n(=>\n (subList ?LIST1 ?LIST2)\n (forall (?ITEM)\n (=>\n (inList ?ITEM ?LIST1)\n (inList ?ITEM ?LIST2))))\n\n(UAX-133)\n(=>\n (subList ?LIST1 ?LIST2)\n (exists (?NUMBER3)\n (forall (?ITEM)\n (=>\n (inList ?ITEM ?LIST1)\n (exists (?NUMBER1 ?NUMBER2)\n (and\n (equal (ListOrderFn ?LIST1 ?NUMBER1) ?ITEM)\n (equal (ListOrderFn ?LIST2 ?NUMBER2) ?ITEM)\n (equal ?NUMBER2 (AdditionFn ?NUMBER1 ?NUMBER3))))))))\n")
(%3ASUO-name "subList"))
([subOrganization] of IrreflexiveRelation
(%3Adocumentation "\"(&%subOrganization ?ORG1 ?ORG2) means that ?ORG1 is an &%Organization which is a proper part of the &%Organization ?ORG2.\"")
(%3AidenticalTo
"Slot(subOrganization_2)"
"Instance(subOrganization_1 of Cls(TransitiveRelation))"
"Instance(subOrganization_3 of Cls(BinaryPredicate))")
(%3ASUO-name "subOrganization"))
([subOrganization_1] of TransitiveRelation
(%3Adocumentation "\"(&%subOrganization ?ORG1 ?ORG2) means that ?ORG1 is an &%Organization which is a proper part of the &%Organization ?ORG2.\"")
(%3AidenticalTo
"Instance(subOrganization of Cls(IrreflexiveRelation))"
"Slot(subOrganization_2)"
"Instance(subOrganization_3 of Cls(BinaryPredicate))")
(%3ASUO-name "subOrganization"))
([subOrganization_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1856)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(subOrganization of Cls(IrreflexiveRelation))"
"Instance(subOrganization_1 of Cls(TransitiveRelation))"
"Instance(subOrganization_3 of Cls(BinaryPredicate))")
(%3ASUO-name "subOrganization"))
([subOrganization_3] of BinaryPredicate
(%3AidenticalTo
"Instance(subOrganization of Cls(IrreflexiveRelation))"
"Slot(subOrganization_2)"
"Instance(subOrganization_1 of Cls(TransitiveRelation))")
(%3ASUO-name "subOrganization"))
([subPlan] of TransitiveRelation
(%3Adocumentation "\"(&%subPlan ?PLAN1 ?PLAN2) means that ?PLAN1 is a &%Plan which is a proper part of ?PLAN2. This relation is generally used to relate a supporting &%Plan to the overall &%Plan in a particular context.\"")
(%3AidenticalTo
"Instance(subPlan_3 of Cls(BinaryPredicate))"
"Instance(subPlan_1 of Cls(IrreflexiveRelation))"
"Slot(subPlan_2)")
(%3ASUO-name "subPlan"))
([subPlan_1] of IrreflexiveRelation
(%3Adocumentation "\"(&%subPlan ?PLAN1 ?PLAN2) means that ?PLAN1 is a &%Plan which is a proper part of ?PLAN2. This relation is generally used to relate a supporting &%Plan to the overall &%Plan in a particular context.\"")
(%3AidenticalTo
"Instance(subPlan_3 of Cls(BinaryPredicate))"
"Slot(subPlan_2)"
"Instance(subPlan of Cls(TransitiveRelation))")
(%3ASUO-name "subPlan"))
([subPlan_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 477)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(subPlan_3 of Cls(BinaryPredicate))"
"Instance(subPlan_1 of Cls(IrreflexiveRelation))"
"Instance(subPlan of Cls(TransitiveRelation))")
(%3ASUO-name "subPlan"))
([subPlan_3] of BinaryPredicate
(%3AidenticalTo
"Instance(subPlan_1 of Cls(IrreflexiveRelation))"
"Slot(subPlan_2)"
"Instance(subPlan of Cls(TransitiveRelation))")
(%3ASUO-name "subPlan"))
([subProcess] of BinaryPredicate
(%3Adocumentation "\"(&%subProcess ?SUBPROC ?PROC) means that ?SUBPROC is a subprocess of ?PROC. A subprocess is here understood as a temporally distinguished part (proper or not) of a &%Process.\"")
(%3AidenticalTo
"Slot(subProcess_2)"
"Instance(subProcess_1 of Cls(PartialOrderingRelation))")
(%3ASUO-name "subProcess"))
([subProcess_1] of PartialOrderingRelation
(%3Adocumentation "\"(&%subProcess ?SUBPROC ?PROC) means that ?SUBPROC is a subprocess of ?PROC. A subprocess is here understood as a temporally distinguished part (proper or not) of a &%Process.\"")
(%3AidenticalTo
"Slot(subProcess_2)"
"Instance(subProcess of Cls(BinaryPredicate))")
(%3ASUO-name "subProcess"))
([subProcess_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1105)
(%3AisInModule [PROCESSES])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(subProcess of Cls(BinaryPredicate))"
"Instance(subProcess_1 of Cls(PartialOrderingRelation))")
(%3AAXIOMS "\n(UAX-459)\n(=>\n (subProcess ?SUBPROC ?PROC)\n (or\n (equal (WhenFn ?SUBPROC) (WhenFn ?PROC))\n (during (WhenFn ?SUBPROC) (WhenFn ?PROC))))\n\n(UAX-460)\n(=>\n (subProcess ?SUBPROC ?PROC)\n (forall (?REGION)\n (=>\n (located ?PROC ?REGION)\n (located ?SUBPROC ?REGION))))\n\n(UAX-461)\n(=>\n (and\n (instance ?PROC Process)\n (subProcess ?SUBPROC ?PROC))\n (exists (?TIME)\n (time ?SUBPROC ?TIME)))\n")
(%3ASUO-name "subProcess"))
([subProposition] of BinaryPredicate
(%3Adocumentation "\"(&%subProposition ?PROP1 ?PROP2) means that ?PROP1 is a &%Proposition which is a proper part of the &%Proposition ?PROP2. In other words, &%subProposition is the analogue of &%properPart for chunks of abstract content.\"")
(%3AidenticalTo
"Instance(subProposition_2 of Cls(IrreflexiveRelation))"
"Instance(subProposition_1 of Cls(TransitiveRelation))"
"Slot(subProposition_3)")
(%3ASUO-name "subProposition"))
([subProposition_1] of TransitiveRelation
(%3Adocumentation "\"(&%subProposition ?PROP1 ?PROP2) means that ?PROP1 is a &%Proposition which is a proper part of the &%Proposition ?PROP2. In other words, &%subProposition is the analogue of &%properPart for chunks of abstract content.\"")
(%3AidenticalTo
"Instance(subProposition_2 of Cls(IrreflexiveRelation))"
"Instance(subProposition of Cls(BinaryPredicate))"
"Slot(subProposition_3)")
(%3ASUO-name "subProposition"))
([subProposition_2] of IrreflexiveRelation
(%3Adocumentation "\"(&%subProposition ?PROP1 ?PROP2) means that ?PROP1 is a &%Proposition which is a proper part of the &%Proposition ?PROP2. In other words, &%subProposition is the analogue of &%properPart for chunks of abstract content.\"")
(%3AidenticalTo
"Instance(subProposition_1 of Cls(TransitiveRelation))"
"Instance(subProposition of Cls(BinaryPredicate))"
"Slot(subProposition_3)")
(%3ASUO-name "subProposition"))
([subProposition_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 475)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(subProposition_2 of Cls(IrreflexiveRelation))"
"Instance(subProposition_1 of Cls(TransitiveRelation))"
"Instance(subProposition of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-190)\n(=>\n (subProposition ?PROP1 ?PROP2)\n (forall (?OBJ1 ?OBJ2)\n (=>\n (and\n (containsInformation ?OBJ1 ?PROP1)\n (containsInformation ?OBJ2 ?PROP2))\n (subsumesContentInstance ?OBJ2 ?OBJ1))))\n")
(%3ASUO-name "subProposition"))
([subrelation] of BinaryPredicate
(%3Adocumentation "\"(&%subrelation ?REL1 ?REL2) means that every tuple of ?REL1 is also a tuple of ?REL2. In other words, if the &%Relation ?REL1 holds for some arguments arg_1, arg_2, ... arg_n, then the &%Relation ?REL2 holds for the same arguments. A consequence of this is that a &%Relation and its subrelations must have the same &%valence. In CycL, &%subrelation is called #$genlPreds.\"")
(%3AidenticalTo
"Slot(subrelation_2)"
"Instance(subrelation_1 of Cls(PartialOrderingRelation))")
(%3ASUO-name "subrelation"))
([subrelation_1] of PartialOrderingRelation
(%3Adocumentation "\"(&%subrelation ?REL1 ?REL2) means that every tuple of ?REL1 is also a tuple of ?REL2. In other words, if the &%Relation ?REL1 holds for some arguments arg_1, arg_2, ... arg_n, then the &%Relation ?REL2 holds for the same arguments. A consequence of this is that a &%Relation and its subrelations must have the same &%valence. In CycL, &%subrelation is called #$genlPreds.\"")
(%3AidenticalTo
"Instance(subrelation of Cls(BinaryPredicate))"
"Slot(subrelation_2)")
(%3ASUO-name "subrelation"))
([subrelation_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 20)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(subrelation of Cls(BinaryPredicate))"
"Instance(subrelation_1 of Cls(PartialOrderingRelation))")
(%3AAXIOMS "\n(UAX-005)\n(=>\n (and\n (subrelation ?PRED1 ?PRED2)\n (valence ?PRED1 ?NUMBER))\n (valence ?PRED2 ?NUMBER))\n\n(UAX-006)\n(=>\n (and\n (subrelation ?PRED1 ?PRED2)\n (domain ?PRED2 ?NUMBER ?CLASS1))\n (domain ?PRED1 ?NUMBER ?CLASS1))\n\n(UAX-007)\n(=>\n (and\n (subrelation ?REL1 ?REL2)\n (holds ?REL1 @ROW))\n (holds ?REL2 @ROW))\n\n(UAX-008)\n(=>\n (and\n (subrelation ?PRED1 ?PRED2)\n (instance ?PRED2 ?CLASS)\n (instance ?CLASS InheritableRelation))\n (instance ?PRED1 ?CLASS))\n")
(%3ASUO-name "subrelation"))
([subset] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 560)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(subset_1 of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-231)\n(=>\n (subset ?SUBSET ?SET)\n (forall (?ELEMENT)\n (=>\n (element ?ELEMENT ?SUBSET)\n (element ?ELEMENT ?SET))))\n")
(%3ASUO-name "subset"))
([subset_1] of BinaryPredicate
(%3AidenticalTo "Slot(subset)")
(%3ASUO-name "subset"))
([Substance] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 123)
(disjoint [CorpuscularObject])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS
[UAX-053]
[UAX-054]))
([Substituting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1234)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-515]))
([subsumedExternalConcept] of %3ATernarySlot
(%3ALOAD-SEQUENCE 75)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(disjointRelation
[synonymousExternalConcept]
[subsumingExternalConcept])
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain2Class Entity)
(%3AidenticalTo "Instance(subsumedExternalConcept_1 of Cls(TernaryPredicate))")
(%3ASUO-name "subsumedExternalConcept"))
([subsumedExternalConcept_1] of TernaryPredicate
(%3AidenticalTo "Slot(subsumedExternalConcept)")
(%3ASUO-name "subsumedExternalConcept"))
([subsumesContentClass] of BinaryPredicate
(%3Adocumentation "\"A &%BinaryPredicate that relates two subclasses of &%ContentBearingObject. (&%subsumesContentClass ?CLASS1 ?CLASS2) means that the content expressed by each instance of ?CLASS2 is also expressed by each instance of ?CLASS1. Examples include the relationship between a poem and one of its stanzas or between a book and one of its chapters. Note that this is a relation between subclasses of &%ContentBearingObject, rather than instances. If one wants to relate instances, the &%Predicate &%subsumesContentInstance can be used. Note that &%subsumesContentClass is needed in many cases. Consider, for example, the relation between the King James edition of the Bible and its Book of Genesis. This relation holds for every copy of this edition and not just for a single instance.\"")
(%3AidenticalTo
"Slot(subsumesContentClass_2)"
"Instance(subsumesContentClass_1 of Cls(PartialOrderingRelation))")
(%3ASUO-name "subsumesContentClass"))
([subsumesContentClass_1] of PartialOrderingRelation
(%3Adocumentation "\"A &%BinaryPredicate that relates two subclasses of &%ContentBearingObject. (&%subsumesContentClass ?CLASS1 ?CLASS2) means that the content expressed by each instance of ?CLASS2 is also expressed by each instance of ?CLASS1. Examples include the relationship between a poem and one of its stanzas or between a book and one of its chapters. Note that this is a relation between subclasses of &%ContentBearingObject, rather than instances. If one wants to relate instances, the &%Predicate &%subsumesContentInstance can be used. Note that &%subsumesContentClass is needed in many cases. Consider, for example, the relation between the King James edition of the Bible and its Book of Genesis. This relation holds for every copy of this edition and not just for a single instance.\"")
(%3AidenticalTo
"Slot(subsumesContentClass_2)"
"Instance(subsumesContentClass of Cls(BinaryPredicate))")
(%3ASUO-name "subsumesContentClass"))
([subsumesContentClass_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 465)
(relatedInternalConcept "subsumesContentInstance")
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Class)
(%3AidenticalTo
"Instance(subsumesContentClass_1 of Cls(PartialOrderingRelation))"
"Instance(subsumesContentClass of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-185)\n(=>\n (subsumesContentClass ?CLASS1 ?CLASS2)\n (forall (?OBJ2 ?INFO)\n (=>\n (and\n (instance ?OBJ2 ?CLASS2)\n (containsInformation ?OBJ2 ?INFO))\n (exists (?OBJ1)\n (and\n (instance ?OBJ1 ?CLASS1)\n (containsInformation ?OBJ1 ?INFO))))))\n")
(%3ASUO-name "subsumesContentClass"))
([subsumesContentInstance] of BinaryPredicate
(%3Adocumentation "\"A &%BinaryPredicate relating two instances of &%ContentBearingObject. (&%subsumesContentInstance ?OBJ1 ?OBJ2) means that the content expressed by ?OBJ2 is part of the content expressed by ?OBJ1. An example is the relationship between a handwritten poem and one of its stanzas. Note that this is a relation between instances, rather than &%Classes. If one wants to assert a content relationship between &%Classes, e.g. between the version of an intellectual work and a part of that work, the relation &%subsumesContentClass should be used.\"")
(%3AidenticalTo
"Slot(subsumesContentInstance_2)"
"Instance(subsumesContentInstance_1 of Cls(PartialOrderingRelation))")
(%3ASUO-name "subsumesContentInstance"))
([subsumesContentInstance_1] of PartialOrderingRelation
(%3Adocumentation "\"A &%BinaryPredicate relating two instances of &%ContentBearingObject. (&%subsumesContentInstance ?OBJ1 ?OBJ2) means that the content expressed by ?OBJ2 is part of the content expressed by ?OBJ1. An example is the relationship between a handwritten poem and one of its stanzas. Note that this is a relation between instances, rather than &%Classes. If one wants to assert a content relationship between &%Classes, e.g. between the version of an intellectual work and a part of that work, the relation &%subsumesContentClass should be used.\"")
(%3AidenticalTo
"Slot(subsumesContentInstance_2)"
"Instance(subsumesContentInstance of Cls(BinaryPredicate))")
(%3ASUO-name "subsumesContentInstance"))
([subsumesContentInstance_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 469)
(relatedInternalConcept "subsumesContentClass")
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(subsumesContentInstance of Cls(BinaryPredicate))"
"Instance(subsumesContentInstance_1 of Cls(PartialOrderingRelation))")
(%3AAXIOMS "\n(UAX-187)\n(=>\n (subsumesContentInstance ?OBJ1 ?OBJ2)\n (forall (?INFO)\n (=>\n (containsInformation ?OBJ2 ?INFO)\n (containsInformation ?OBJ1 ?INFO))))\n")
(%3ASUO-name "subsumesContentInstance"))
([subsumingExternalConcept] of %3ATernarySlot
(%3ALOAD-SEQUENCE 74)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(disjointRelation
[synonymousExternalConcept]
[subsumedExternalConcept])
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain2Class Entity)
(%3AidenticalTo "Instance(subsumingExternalConcept_1 of Cls(TernaryPredicate))")
(%3ASUO-name "subsumingExternalConcept"))
([subsumingExternalConcept_1] of TernaryPredicate
(%3AidenticalTo "Slot(subsumingExternalConcept)")
(%3ASUO-name "subsumingExternalConcept"))
([SubtractionFn] of BinaryFunction
(%3AidenticalTo
"Instance(SubtractionFn_2 of Cls(RelationExtendedToQuantities))"
"Instance(SubtractionFn_1 of Cls(AssociativeFunction))"
"Slot(SubtractionFn_4)"
"Instance(SubtractionFn_3 of Cls(TotalValuedRelation))")
(%3Adocumentation "\"If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%SubtractionFn ?NUMBER1 ?NUMBER2) is the arithmetical difference between ?NUMBER1 and ?NUMBER2, i.e. ?NUMBER1 minus ?NUMBER2. An exception occurs when ?NUMBER1 is equal to 0, in which case (&%SubtractionFn ?NUMBER1 ?NUMBER2) is the negation of ?NUMBER2.\"")
(%3ASUO-name "SubtractionFn"))
([SubtractionFn_1] of AssociativeFunction
(%3Adocumentation "\"If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%SubtractionFn ?NUMBER1 ?NUMBER2) is the arithmetical difference between ?NUMBER1 and ?NUMBER2, i.e. ?NUMBER1 minus ?NUMBER2. An exception occurs when ?NUMBER1 is equal to 0, in which case (&%SubtractionFn ?NUMBER1 ?NUMBER2) is the negation of ?NUMBER2.\"")
(%3AidenticalTo
"Instance(SubtractionFn_2 of Cls(RelationExtendedToQuantities))"
"Slot(SubtractionFn_4)"
"Instance(SubtractionFn of Cls(BinaryFunction))"
"Instance(SubtractionFn_3 of Cls(TotalValuedRelation))")
(%3ASUO-name "SubtractionFn"))
([SubtractionFn_2] of RelationExtendedToQuantities
(%3AidenticalTo
"Instance(SubtractionFn_1 of Cls(AssociativeFunction))"
"Slot(SubtractionFn_4)"
"Instance(SubtractionFn of Cls(BinaryFunction))"
"Instance(SubtractionFn_3 of Cls(TotalValuedRelation))")
(%3Adocumentation "\"If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%SubtractionFn ?NUMBER1 ?NUMBER2) is the arithmetical difference between ?NUMBER1 and ?NUMBER2, i.e. ?NUMBER1 minus ?NUMBER2. An exception occurs when ?NUMBER1 is equal to 0, in which case (&%SubtractionFn ?NUMBER1 ?NUMBER2) is the negation of ?NUMBER2.\"")
(%3ASUO-name "SubtractionFn"))
([SubtractionFn_3] of TotalValuedRelation
(%3AidenticalTo
"Instance(SubtractionFn_2 of Cls(RelationExtendedToQuantities))"
"Instance(SubtractionFn_1 of Cls(AssociativeFunction))"
"Slot(SubtractionFn_4)"
"Instance(SubtractionFn of Cls(BinaryFunction))")
(%3Adocumentation "\"If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%SubtractionFn ?NUMBER1 ?NUMBER2) is the arithmetical difference between ?NUMBER1 and ?NUMBER2, i.e. ?NUMBER1 minus ?NUMBER2. An exception occurs when ?NUMBER1 is equal to 0, in which case (&%SubtractionFn ?NUMBER1 ?NUMBER2) is the negation of ?NUMBER2.\"")
(%3ASUO-name "SubtractionFn"))
([SubtractionFn_4] of %3ATernarySlot
(%3ALOAD-SEQUENCE 487)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain2Class Quantity)
(%3AidenticalTo
"Instance(SubtractionFn_2 of Cls(RelationExtendedToQuantities))"
"Instance(SubtractionFn_1 of Cls(AssociativeFunction))"
"Instance(SubtractionFn of Cls(BinaryFunction))"
"Instance(SubtractionFn_3 of Cls(TotalValuedRelation))")
(%3AAXIOMS "\n(UAX-193)\n(equal (PredecessorFn ?NUMBER) (SubtractionFn ?NUMBER 1))\n")
(%3ASUO-name "SubtractionFn"))
([successorAttribute] of BinaryPredicate
(%3Adocumentation "\"(&%successorAttribute ?ATTR1 ?ATTR2) means that ?ATTR2 is the &%Attribute that comes immediately after ?ATTR1 on the scale that they share.\"")
(%3AidenticalTo
"Slot(successorAttribute_2)"
"Instance(successorAttribute_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "successorAttribute"))
([successorAttribute%2417] of %3ASUMOProposition
(%3ALOAD-SEQUENCE 2084)
(%3AliteralTranscription "(successorAttribute NonFullyFormed FullyFormed)")
(%3AisInModule [QUALITIES])
(%3Adocumentation "\"The stage of an &%Organism before it is &%FullyFormed.\"")
(%3AargumentList
"successorAttribute"
"NonFullyFormed"
"FullyFormed"))
([successorAttribute_1] of AsymmetricRelation
(%3Adocumentation "\"(&%successorAttribute ?ATTR1 ?ATTR2) means that ?ATTR2 is the &%Attribute that comes immediately after ?ATTR1 on the scale that they share.\"")
(%3AidenticalTo
"Slot(successorAttribute_2)"
"Instance(successorAttribute of Cls(BinaryPredicate))")
(%3ASUO-name "successorAttribute"))
([successorAttribute_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 79)
(disjointRelation [subAttribute_2])
(relatedInternalConcept "successorAttributeClosure")
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(successorAttribute_1 of Cls(AsymmetricRelation))"
"Instance(successorAttribute of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-042)\n(=>\n (and\n (successorAttribute ?ATTR1 ?ATTR2)\n (holdsDuring ?TIME1 (property ?ENTITY ?ATTR2)))\n (exists (?TIME2)\n (and\n (temporalPart ?TIME2 (PastFn ?TIME1))\n (holdsDuring ?TIME2 (property ?ENTITY ?ATTR1)))))\n")
(%3ASUO-name "successorAttribute"))
([successorAttributeClosure] of BinaryPredicate
(%3Adocumentation "\"The transitive closure of &%successorAttribute. (&%successorAttributeClosure ?ATTR1 ?ATTR2) means that there is a chain of &%successorAttribute assertions connecting ?ATTR1 and ?ATTR2.\"")
(%3AidenticalTo
"Instance(successorAttributeClosure_2 of Cls(IrreflexiveRelation))"
"Instance(successorAttributeClosure_1 of Cls(TransitiveRelation))"
"Slot(successorAttributeClosure_3)")
(%3ASUO-name "successorAttributeClosure"))
([successorAttributeClosure_1] of TransitiveRelation
(%3Adocumentation "\"The transitive closure of &%successorAttribute. (&%successorAttributeClosure ?ATTR1 ?ATTR2) means that there is a chain of &%successorAttribute assertions connecting ?ATTR1 and ?ATTR2.\"")
(%3AidenticalTo
"Instance(successorAttributeClosure_2 of Cls(IrreflexiveRelation))"
"Slot(successorAttributeClosure_3)"
"Instance(successorAttributeClosure of Cls(BinaryPredicate))")
(%3ASUO-name "successorAttributeClosure"))
([successorAttributeClosure_2] of IrreflexiveRelation
(%3Adocumentation "\"The transitive closure of &%successorAttribute. (&%successorAttributeClosure ?ATTR1 ?ATTR2) means that there is a chain of &%successorAttribute assertions connecting ?ATTR1 and ?ATTR2.\"")
(%3AidenticalTo
"Instance(successorAttributeClosure_1 of Cls(TransitiveRelation))"
"Slot(successorAttributeClosure_3)"
"Instance(successorAttributeClosure of Cls(BinaryPredicate))")
(%3ASUO-name "successorAttributeClosure"))
([successorAttributeClosure_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 81)
(relatedInternalConcept "successorAttribute")
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(successorAttributeClosure_2 of Cls(IrreflexiveRelation))"
"Instance(successorAttributeClosure_1 of Cls(TransitiveRelation))"
"Instance(successorAttributeClosure of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-043)\n(=>\n (successorAttribute ?ATTR1 ?ATTR2)\n (successorAttributeClosure ?ATTR1 ?ATTR2))\n")
(%3ASUO-name "successorAttributeClosure"))
([SuccessorFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps an &%Integer to its successor, e.g. the successor of 5 is 6.\"")
(%3AidenticalTo
"Instance(SuccessorFn_1 of Cls(TotalValuedRelation))"
"Slot(SuccessorFn_2)")
(%3ASUO-name "SuccessorFn"))
([SuccessorFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(SuccessorFn of Cls(UnaryFunction))"
"Slot(SuccessorFn_2)")
(%3Adocumentation "\"A &%UnaryFunction that maps an &%Integer to its successor, e.g. the successor of 5 is 6.\"")
(%3ASUO-name "SuccessorFn"))
([SuccessorFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 545)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(SuccessorFn of Cls(UnaryFunction))"
"Instance(SuccessorFn_1 of Cls(TotalValuedRelation))")
(%3AAXIOMS "\n(UAX-223)\n(=>\n (equal (SuccessorFn ?INT1) (SuccessorFn ?INT2))\n (equal ?INT1 ?INT2))\n\n(UAX-224)\n(=>\n (instance ?INT Integer)\n (lessThan ?INT (SuccessorFn ?INT)))\n\n(UAX-225)\n(=>\n (and\n (instance ?INT1 Integer)\n (instance ?INT2 Integer))\n (not\n (and\n (lessThan ?INT1 ?INT2)\n (lessThan ?INT2 (SuccessorFn ?INT1)))))\n\n(UAX-226)\n(=>\n (instance ?INT Integer)\n (equal ?INT (SuccessorFn (PredecessorFn ?INT))))\n\n(UAX-227)\n(=>\n (instance ?INT Integer)\n (equal ?INT (PredecessorFn (SuccessorFn ?INT))))\n")
(%3ASUO-name "SuccessorFn"))
([Summary] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1731)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-730]))
([SUMO148_00000] of %3ASTANDARD-FACET
(%3AASSOCIATED-SLOT [%3ADomain2Class]))
([SUMO152_00100] of %3ASTANDARD-FACET
(%3AASSOCIATED-SLOT [%3ADomain2Value]))
([SUMO152_00102] of %3ASTANDARD-FACET
(%3AASSOCIATED-SLOT [%3ADomain3Value]))
([Sunday] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 991)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS
[UAX-400]
[UAX-401]))
([superficialPart] of IrreflexiveRelation
(%3Adocumentation "\"(&%superficialPart ?OBJ1 ?OBJ2) means that ?OBJ1 is a part of ?OBJ2 that has no interior parts of its own (or, intuitively, that only overlaps those parts of ?OBJ2 that are externally connected with the mereological complement of ?OBJ2). This too is a transitive relation closed under &%MereologicalSumFn and &%MereologicalProductFn.\"")
(%3AidenticalTo
"Instance(superficialPart_3 of Cls(SpatialRelation))"
"Slot(superficialPart_2)"
"Instance(superficialPart_1 of Cls(TransitiveRelation))")
(%3ASUO-name "superficialPart"))
([superficialPart_1] of TransitiveRelation
(%3Adocumentation "\"(&%superficialPart ?OBJ1 ?OBJ2) means that ?OBJ1 is a part of ?OBJ2 that has no interior parts of its own (or, intuitively, that only overlaps those parts of ?OBJ2 that are externally connected with the mereological complement of ?OBJ2). This too is a transitive relation closed under &%MereologicalSumFn and &%MereologicalProductFn.\"")
(%3AidenticalTo
"Instance(superficialPart_3 of Cls(SpatialRelation))"
"Slot(superficialPart_2)"
"Instance(superficialPart of Cls(IrreflexiveRelation))")
(%3ASUO-name "superficialPart"))
([superficialPart_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1033)
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(superficialPart_3 of Cls(SpatialRelation))"
"Instance(superficialPart_1 of Cls(TransitiveRelation))"
"Instance(superficialPart of Cls(IrreflexiveRelation))")
(%3AAXIOMS "\n(UAX-426)\n(=>\n (superficialPart ?OBJ1 ?OBJ2)\n (and\n (not\n (interiorPart ?OBJ1 ?OBJ2))\n (not\n (exists (?OBJ3)\n (interiorPart ?OBJ3 ?OBJ1)))))\n")
(%3ASUO-name "superficialPart"))
([superficialPart_3] of SpatialRelation
(%3AidenticalTo
"Slot(superficialPart_2)"
"Instance(superficialPart_1 of Cls(TransitiveRelation))"
"Instance(superficialPart of Cls(IrreflexiveRelation))")
(%3ASUO-name "superficialPart"))
([Supposing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1423)
(disjoint
[Stating]
[Directing]
[Committing]
[ExpressingInLanguage]
[Declaring])
(%3AisInModule [PROCESSES]))
([surface] of AsymmetricRelation
(%3Adocumentation "\"(&%surface ?OBJ1 ?OBJ2) means that ?OBJ1 is a maximally connected &%superficialPart of ?OBJ2. Note that some &%SelfConnectedObjects have more than one surface, e.g. a hollow object like a tennis ball has both an inner and an outer surface.\"")
(%3AidenticalTo "Slot(surface_1)")
(%3ASUO-name "surface"))
([surface_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1035)
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(surface of Cls(AsymmetricRelation))")
(%3AAXIOMS "\n(UAX-427)\n(=>\n (surface ?OBJ1 ?OBJ2)\n (forall (?OBJ3)\n (=>\n (superficialPart ?OBJ3 ?OBJ2)\n (part ?OBJ3 ?OBJ1))))\n")
(%3ASUO-name "surface"))
([SurfaceChange] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1360)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-576]))
([Surgery] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1327)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-560]))
([Swimming] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1209)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-506]))
([SymbolicString] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 154)
(%3AisInModule [BASE_ONTOLOGY]))
([SymmetricRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 258)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-090]))
([synonymousExternalConcept] of %3ATernarySlot
(%3ALOAD-SEQUENCE 73)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(disjointRelation
[subsumedExternalConcept]
[subsumingExternalConcept])
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain2Class Entity)
(%3AidenticalTo "Instance(synonymousExternalConcept_1 of Cls(TernaryPredicate))")
(%3ASUO-name "synonymousExternalConcept"))
([synonymousExternalConcept_1] of TernaryPredicate
(%3AidenticalTo "Slot(synonymousExternalConcept)")
(%3ASUO-name "synonymousExternalConcept"))
([SystemeInternationalUnit] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 644)
(%3AisInModule [UNITS_OF_MEASURE]))
([TactilePerception] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1479)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-634]))
([tangent] of BinaryPredicate
(%3Adocumentation "\"(&%tangent ?LINE ?CIRCLE) means that the straight line ?LINE is tangent to the &%Circle ?CIRCLE, i.e. ?LINE touches ?CIRCLE without intersecting it.\"")
(%3AidenticalTo "Slot(tangent_1)")
(%3ASUO-name "tangent"))
([tangent_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 2046)
(%3AisInModule [QUALITIES])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(tangent of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-853)\n(=>\n (tangent ?LINE ?CIRCLE)\n (exists (?POINT1)\n (and\n (pointOfFigure ?POINT1 ?LINE)\n (pointOfFigure ?POINT1 ?CIRCLE)\n (forall (?POINT2)\n (=>\n (and\n (pointOfFigure ?POINT2 ?LINE)\n (pointOfFigure ?POINT2 ?CIRCLE))\n (equal ?POINT1 ?POINT2))))))\n")
(%3ASUO-name "tangent"))
([TangentFn] of UnaryFunction
(%3Adocumentation "\"(&%TangentFn ?DEGREE) is the tangent of the &%PlaneAngleMeasure ?DEGREE. The tangent of ?DEGREE is the ratio of the side opposite ?DEGREE to the side next to ?DEGREE in a right-angled triangle.\"")
(%3AidenticalTo
"Slot(TangentFn_2)"
"Instance(TangentFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "TangentFn"))
([TangentFn_1] of TotalValuedRelation
(%3AidenticalTo
"Slot(TangentFn_2)"
"Instance(TangentFn of Cls(UnaryFunction))")
(%3Adocumentation "\"(&%TangentFn ?DEGREE) is the tangent of the &%PlaneAngleMeasure ?DEGREE. The tangent of ?DEGREE is the ratio of the side opposite ?DEGREE to the side next to ?DEGREE in a right-angled triangle.\"")
(%3ASUO-name "TangentFn"))
([TangentFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 537)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(TangentFn_1 of Cls(TotalValuedRelation))"
"Instance(TangentFn of Cls(UnaryFunction))")
(%3AAXIOMS "\n(UAX-217)\n(=>\n (instance ?DEGREE PlaneAngleMeasure)\n (equal (TangentFn ?DEGREE) (DivisionFn (SineFn ?DEGREE) (CosineFn ?DEGREE))))\n")
(%3ASUO-name "TangentFn"))
([TasteAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1985)
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS [UAX-835]))
([Tasting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1474)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-632]))
([TelicEntity] of %3ASYN-CLASS
(%3ALOAD-SEQUENCE 0)
(%3ASYNONYMS [SKIFcore3_00375])
(%3AisInModule [KIF-core]))
([TemperatureMeasure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 649)
(%3AisInModule [UNITS_OF_MEASURE]))
([TEMPORAL_CONCEPTS] of %3AModule
(%3AStartingBlock 849)
(%3AinputFile "testin.kif")
(%3ASUO-name "TEMPORAL_CONCEPTS"))
([TemporalCompositionFn] of BinaryFunction
(%3AidenticalTo
"Slot(TemporalCompositionFn_2)"
"Instance(TemporalCompositionFn_1 of Cls(TemporalRelation))")
(%3Adocumentation "\"The basic &%Function for expressing the composition of larger &%TimeIntervals out of smaller &%TimeIntervals. For example, if &%ThisSeptember is an &%instance of &%September, (&%TemporalCompositionFn &%ThisSeptember &%Day) denotes the &%Class of consecutive days that make up &%ThisSeptember. Note that one can obtain the number of instances of this &%Class by using the function &%CardinalityFn.\"")
(%3ASUO-name "TemporalCompositionFn"))
([TemporalCompositionFn_1] of TemporalRelation
(%3AidenticalTo
"Slot(TemporalCompositionFn_2)"
"Instance(TemporalCompositionFn of Cls(BinaryFunction))")
(%3Adocumentation "\"The basic &%Function for expressing the composition of larger &%TimeIntervals out of smaller &%TimeIntervals. For example, if &%ThisSeptember is an &%instance of &%September, (&%TemporalCompositionFn &%ThisSeptember &%Day) denotes the &%Class of consecutive days that make up &%ThisSeptember. Note that one can obtain the number of instances of this &%Class by using the function &%CardinalityFn.\"")
(%3ASUO-name "TemporalCompositionFn"))
([TemporalCompositionFn_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 1002)
(%3ADomain2Type Class)
(%3ADomain1Type Instance)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain2Class TimeInterval)
(%3AidenticalTo
"Instance(TemporalCompositionFn_1 of Cls(TemporalRelation))"
"Instance(TemporalCompositionFn of Cls(BinaryFunction))")
(%3AAXIOMS "\n(UAX-406)\n(=>\n (equal (TemporalCompositionFn ?INTERVAL ?INTERVAL-TYPE) ?CLASS)\n (forall (?TIME1 ?TIME2)\n (=>\n (and\n (instance ?TIME1 ?INTERVAL-TYPE)\n (instance ?TIME2 ?CLASS))\n (exists (?DURATION)\n (and\n (duration ?TIME1 ?DURATION)\n (duration ?TIME2 ?DURATION))))))\n\n(UAX-407)\n(=>\n (equal (TemporalCompositionFn ?INTERVAL ?INTERVAL-TYPE) ?CLASS)\n (forall (?TIME1 ?TIME2)\n (=>\n (and\n (instance ?TIME1 ?CLASS)\n (instance ?TIME2 ?CLASS)\n (not (equal ?TIME1 ?TIME2)))\n (or\n (meetsTemporally ?TIME1 ?TIME2)\n (meetsTemporally ?TIME2 ?TIME1)\n (earlier ?TIME1 ?TIME2)\n (earlier ?TIME2 ?TIME1)))))\n\n(UAX-408)\n(=>\n (equal (TemporalCompositionFn ?INTERVAL ?INTERVAL-TYPE) ?CLASS)\n (exists (?TIME)\n (and\n (instance ?TIME ?CLASS)\n (starts ?TIME ?INTERVAL))))\n\n(UAX-409)\n(=>\n (equal (TemporalCompositionFn ?INTERVAL ?INTERVAL-TYPE) ?CLASS)\n (exists (?TIME)\n (and\n (instance ?TIME ?CLASS)\n (finishes ?TIME ?INTERVAL))))\n\n(UAX-410)\n(=>\n (equal (TemporalCompositionFn ?INTERVAL ?INTERVAL-TYPE) ?CLASS)\n (forall (?TIME1)\n (=>\n (and\n (instance ?TIME1 ?CLASS)\n (not (finishes ?TIME1 ?INTERVAL)))\n (exists (?TIME2)\n (and\n (instance ?TIME2 ?CLASS)\n (meetsTemporally ?TIME1 ?TIME2))))))\n\n(UAX-411)\n(=>\n (equal (TemporalCompositionFn ?INTERVAL ?INTERVAL-TYPE) ?CLASS)\n (forall (?TIME1)\n (=>\n (and\n (instance ?TIME1 ?CLASS)\n (not (starts ?TIME1 ?INTERVAL)))\n (exists (?TIME2)\n (and\n (instance ?TIME2 ?CLASS)\n (meetsTemporally ?TIME2 ?TIME1))))))\n\n(UAX-412)\n(=>\n (equal (TemporalCompositionFn ?INTERVAL ?INTERVAL-TYPE) ?CLASS)\n (forall (?TIME)\n (=>\n (and\n (instance ?TIME TimePoint)\n (temporalPart ?TIME ?INTERVAL))\n (exists (?INSTANCE)\n (and\n (instance ?INSTANCE ?CLASS)\n (temporalPart ?TIME ?INSTANCE))))))\n\n(UAX-413)\n(=>\n (instance ?YEAR Year)\n (equal (CardinalityFn (TemporalCompositionFn ?YEAR Month)) 12))\n\n(UAX-414)\n(=>\n (and\n (instance ?MONTH Month)\n (duration ?MONTH (MeasureFn ?NUMBER DayDuration)))\n (equal (CardinalityFn (TemporalCompositionFn ?MONTH Day)) ?NUMBER))\n\n(UAX-415)\n(=>\n (instance ?WEEK Week)\n (equal (CardinalityFn (TemporalCompositionFn ?WEEK Day)) 7))\n\n(UAX-416)\n(=>\n (instance ?DAY Day)\n (equal (CardinalityFn (TemporalCompositionFn ?DAY Hour)) 24))\n\n(UAX-417)\n(=>\n (instance ?HOUR Hour)\n (equal (CardinalityFn (TemporalCompositionFn ?HOUR Minute)) 60))\n\n(UAX-418)\n(=>\n (instance ?MINUTE Minute)\n (equal (CardinalityFn (TemporalCompositionFn ?MINUTE Second)) 60))\n")
(%3ASUO-name "TemporalCompositionFn"))
([temporallyBetween] of TemporalRelation
(%3AidenticalTo
"Instance(temporallyBetween_1 of Cls(TernaryPredicate))"
"Slot(temporallyBetween_2)")
(%3Adocumentation "\"(&%temporallyBetween ?POINT1 ?POINT2 ?POINT3) means that the &%TimePoint ?POINT2 is between the &%TimePoints ?POINT1 and ?POINT3, i.e. ?POINT1 is before ?POINT2 and ?POINT2 is before ?POINT3.\"")
(%3ASUO-name "temporallyBetween"))
([temporallyBetween_1] of TernaryPredicate
(%3AidenticalTo
"Slot(temporallyBetween_2)"
"Instance(temporallyBetween of Cls(TemporalRelation))")
(%3Adocumentation "\"(&%temporallyBetween ?POINT1 ?POINT2 ?POINT3) means that the &%TimePoint ?POINT2 is between the &%TimePoints ?POINT1 and ?POINT3, i.e. ?POINT1 is before ?POINT2 and ?POINT2 is before ?POINT3.\"")
(%3ASUO-name "temporallyBetween"))
([temporallyBetween_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 885)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain2Class TimePoint)
(%3AidenticalTo
"Instance(temporallyBetween_1 of Cls(TernaryPredicate))"
"Instance(temporallyBetween of Cls(TemporalRelation))")
(%3AAXIOMS "\n(UAX-339)\n(<=>\n (temporallyBetween ?POINT1 ?POINT2 ?POINT3)\n (and\n (before ?POINT1 ?POINT2)\n (before ?POINT2 ?POINT3)))\n")
(%3ASUO-name "temporallyBetween"))
([temporallyBetweenOrEqual] of TemporalRelation
(%3AidenticalTo
"Slot(temporallyBetweenOrEqual_2)"
"Instance(temporallyBetweenOrEqual_1 of Cls(TernaryPredicate))")
(%3Adocumentation "\"(&%temporallyBetweenOrEqual ?POINT1 ?POINT2 ?POINT3) means that the &%TimePoint ?POINT1 is before or equal to the &%TimePoint ?POINT2 and ?POINT2 is before or equal to the &%TimePoint ?POINT3.\"")
(%3ASUO-name "temporallyBetweenOrEqual"))
([temporallyBetweenOrEqual_1] of TernaryPredicate
(%3AidenticalTo
"Slot(temporallyBetweenOrEqual_2)"
"Instance(temporallyBetweenOrEqual of Cls(TemporalRelation))")
(%3Adocumentation "\"(&%temporallyBetweenOrEqual ?POINT1 ?POINT2 ?POINT3) means that the &%TimePoint ?POINT1 is before or equal to the &%TimePoint ?POINT2 and ?POINT2 is before or equal to the &%TimePoint ?POINT3.\"")
(%3ASUO-name "temporallyBetweenOrEqual"))
([temporallyBetweenOrEqual_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 887)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain2Class TimePoint)
(%3AidenticalTo
"Instance(temporallyBetweenOrEqual_1 of Cls(TernaryPredicate))"
"Instance(temporallyBetweenOrEqual of Cls(TemporalRelation))")
(%3AAXIOMS "\n(UAX-340)\n(<=>\n (temporallyBetweenOrEqual ?POINT1 ?POINT2 ?POINT3)\n (and\n (beforeOrEqual ?POINT1 ?POINT2)\n (beforeOrEqual ?POINT2 ?POINT3)))\n\n(UAX-341)\n(<=>\n (and\n (time ?PHYS ?TIME)\n (instance ?TIME TimePoint))\n (temporallyBetweenOrEqual (BeginFn (WhenFn ?PHYS)) ?TIME (EndFn (WhenFn ?PHYS))))\n")
(%3ASUO-name "temporallyBetweenOrEqual"))
([temporalPart] of BinaryPredicate
(%3Adocumentation "\"The temporal analogue of the spatial &%part predicate. (&%temporalPart ?POS1 ?POS2) means that &%TimePosition ?POS1 is part of &%TimePosition ?POS2. Note that since &%temporalPart is a &%ReflexiveRelation every &%TimePostion is a &%temporalPart of itself.\"")
(%3AidenticalTo
"Instance(temporalPart_1 of Cls(TemporalRelation))"
"Instance(temporalPart_2 of Cls(PartialOrderingRelation))"
"Slot(temporalPart_3)")
(%3ASUO-name "temporalPart"))
([temporalPart_1] of TemporalRelation
(%3AidenticalTo
"Instance(temporalPart_2 of Cls(PartialOrderingRelation))"
"Slot(temporalPart_3)"
"Instance(temporalPart of Cls(BinaryPredicate))")
(%3Adocumentation "\"The temporal analogue of the spatial &%part predicate. (&%temporalPart ?POS1 ?POS2) means that &%TimePosition ?POS1 is part of &%TimePosition ?POS2. Note that since &%temporalPart is a &%ReflexiveRelation every &%TimePostion is a &%temporalPart of itself.\"")
(%3ASUO-name "temporalPart"))
([temporalPart_2] of PartialOrderingRelation
(%3Adocumentation "\"The temporal analogue of the spatial &%part predicate. (&%temporalPart ?POS1 ?POS2) means that &%TimePosition ?POS1 is part of &%TimePosition ?POS2. Note that since &%temporalPart is a &%ReflexiveRelation every &%TimePostion is a &%temporalPart of itself.\"")
(%3AidenticalTo
"Instance(temporalPart_1 of Cls(TemporalRelation))"
"Slot(temporalPart_3)"
"Instance(temporalPart of Cls(BinaryPredicate))")
(%3ASUO-name "temporalPart"))
([temporalPart_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 862)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(temporalPart_1 of Cls(TemporalRelation))"
"Instance(temporalPart_2 of Cls(PartialOrderingRelation))"
"Instance(temporalPart of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-324)\n(=>\n (instance ?POINT TimePoint)\n (exists (?INTERVAL)\n (and\n (instance ?INTERVAL TimeInterval)\n (temporalPart ?POINT ?INTERVAL))))\n\n(UAX-325)\n(=>\n (instance ?INTERVAL TimeInterval)\n (exists (?POINT)\n (and\n (instance ?POINT TimePoint)\n (temporalPart ?POINT ?INTERVAL))))\n\n(UAX-326)\n(=>\n (and\n (holdsDuring ?TIME1 ?SITUATION)\n (temporalPart ?TIME2 ?TIME1))\n (holdsDuring ?TIME2 ?SITUATION))\n\n(UAX-327)\n(=>\n (and\n (holdsDuring ?INTERVAL (holds ?REL ?INST1 ?INST2))\n (instance ?INST1 Physical)\n (instance ?INST2 Physical))\n (and\n (time ?INST1 ?INTERVAL)\n (time ?INST2 ?INTERVAL)))\n\n(UAX-328)\n(<=>\n (temporalPart ?POS (WhenFn ?THING))\n (time ?THING ?POS))\n")
(%3ASUO-name "temporalPart"))
([TemporalRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 296)
(%3AisInModule [BASE_ONTOLOGY])
(%3AidenticalTo "Instance(TemporalRelation_1 of Cls(InheritableRelation))"))
([TemporalRelation_1] of InheritableRelation
(%3Adocumentation "\"The &%Class of temporal &%Relations. This &%Class includes notions of (temporal) topology of intervals, (temporal) schemata, and (temporal) extension.\"")
(%3AidenticalTo "Cls(TemporalRelation)"))
([TemporaryResidence] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1767)
(disjoint [PermanentResidence])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-746]))
([TeraFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to 1,000,000,000,000 units of the original &%UnitOfMeasure. For example, (&%TeraFn &%Hertz) is 1,000,000,000,000 &%Hertz.\"")
(%3AidenticalTo
"Slot(TeraFn_2)"
"Instance(TeraFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "TeraFn"))
([TeraFn_1] of TotalValuedRelation
(%3AidenticalTo
"Slot(TeraFn_2)"
"Instance(TeraFn of Cls(UnaryFunction))")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to 1,000,000,000,000 units of the original &%UnitOfMeasure. For example, (&%TeraFn &%Hertz) is 1,000,000,000,000 &%Hertz.\"")
(%3ASUO-name "TeraFn"))
([TeraFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 664)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(TeraFn_1 of Cls(TotalValuedRelation))"
"Instance(TeraFn of Cls(UnaryFunction))")
(%3AAXIOMS "\n(UAX-270)\n(=>\n (instance ?UNIT UnitOfMeasure)\n (equal (TeraFn ?UNIT) (MeasureFn 1000000000000 ?UNIT)))\n")
(%3ASUO-name "TeraFn"))
([TerminalNodeFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a &%GraphArc to the terminal node of the &%GraphArc. Note that this is a partial function. In particular, the function is undefined for &%GraphArcs that are not part of a &%DirectedGraph.\"")
(%3AidenticalTo
"Instance(TerminalNodeFn_1 of Cls(PartialValuedRelation))"
"Slot(TerminalNodeFn_2)")
(%3ASUO-name "TerminalNodeFn"))
([TerminalNodeFn_1] of PartialValuedRelation
(%3AidenticalTo
"Instance(TerminalNodeFn of Cls(UnaryFunction))"
"Slot(TerminalNodeFn_2)")
(%3Adocumentation "\"A &%UnaryFunction that maps a &%GraphArc to the terminal node of the &%GraphArc. Note that this is a partial function. In particular, the function is undefined for &%GraphArcs that are not part of a &%DirectedGraph.\"")
(%3ASUO-name "TerminalNodeFn"))
([TerminalNodeFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 618)
(relatedInternalConcept "EndNodeFn")
(%3AisInModule [GRAPH_THEORY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(TerminalNodeFn of Cls(UnaryFunction))"
"Instance(TerminalNodeFn_1 of Cls(PartialValuedRelation))")
(%3ASUO-name "TerminalNodeFn"))
([TerminatingEmployment] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1172)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-492]))
([TernaryFunction] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 369)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-142])
(%3AidenticalTo "Instance(TernaryFunction_1 of Cls(InheritableRelation))"))
([TernaryFunction_1] of InheritableRelation
(%3Adocumentation "\"The &%Class of &%Functions that require exactly three arguments.\"")
(%3AidenticalTo "Cls(TernaryFunction)"))
([TernaryPredicate] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 377)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-145])
(%3AidenticalTo "Instance(TernaryPredicate_1 of Cls(InheritableRelation))"))
([TernaryPredicate_1] of InheritableRelation
(%3Adocumentation "\"The &%Class of &%Predicates that require exactly three arguments.\"")
(%3AidenticalTo "Cls(TernaryPredicate)"))
([TernaryRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 319)
(disjoint
[UnaryRelation]
[BinaryRelation]
[QuaternaryRelation]
[QuintaryRelation]
[VariableArityRelation])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-113])
(%3AidenticalTo "Instance(TernaryRelation_1 of Cls(InheritableRelation))"))
([TernaryRelation_1] of InheritableRelation
(%3Adocumentation "\"&%TernaryRelations relate three items. The two &%subclasses of &%TernaryRelation are &%TernaryPredicate and &%BinaryFunction.\"")
(%3AidenticalTo "Cls(TernaryRelation)"))
([Tesla] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 731)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Tesla_1 of Cls(SystemeInternationalUnit))"))
([Tesla_1] of SystemeInternationalUnit
(%3Adocumentation "SI magnetic flux density measure. Symbol: T. One &%Tesla equals one &%Weber per square &%Meter. &%Tesla = Wb/m^2 = kg*s^(-2)*A^(-1).")
(%3AidenticalTo "Cls(Tesla)"))
([Text] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1707)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS
[UAX-717]
[UAX-718]))
([TextureAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2048)
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS [UAX-854]))
([TherapeuticProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1325)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-559]))
([ThreeDimensionalFigure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2029)
(disjoint
[GeometricPoint]
[OneDimensionalFigure]
[TwoDimensionalFigure])
(%3AisInModule [QUALITIES]))
([Thursday] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 985)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS [UAX-397]))
([time] of BinaryPredicate
(%3Adocumentation "\"This relation holds between an instance of &%Physical and an instance of &%TimePosition just in case the temporal lifespan of the former includes the latter. The constants &%located and &%time are the basic spatial and temporal predicates, respectively.\"")
(%3AidenticalTo
"Slot(time_3)"
"Instance(time_1 of Cls(TemporalRelation))"
"Instance(time_2 of Cls(AsymmetricRelation))")
(%3ASUO-name "time"))
([time_1] of TemporalRelation
(%3AidenticalTo
"Instance(time of Cls(BinaryPredicate))"
"Slot(time_3)"
"Instance(time_2 of Cls(AsymmetricRelation))")
(%3Adocumentation "\"This relation holds between an instance of &%Physical and an instance of &%TimePosition just in case the temporal lifespan of the former includes the latter. The constants &%located and &%time are the basic spatial and temporal predicates, respectively.\"")
(%3ASUO-name "time"))
([time_2] of AsymmetricRelation
(%3Adocumentation "\"This relation holds between an instance of &%Physical and an instance of &%TimePosition just in case the temporal lifespan of the former includes the latter. The constants &%located and &%time are the basic spatial and temporal predicates, respectively.\"")
(%3AidenticalTo
"Instance(time of Cls(BinaryPredicate))"
"Slot(time_3)"
"Instance(time_1 of Cls(TemporalRelation))")
(%3ASUO-name "time"))
([time_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 410)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(time of Cls(BinaryPredicate))"
"Instance(time_1 of Cls(TemporalRelation))"
"Instance(time_2 of Cls(AsymmetricRelation))")
(%3ASUO-name "time"))
([TimeDependentQuantity] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 238)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-083]))
([TimeDuration] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 231)
(%3AisInModule [BASE_ONTOLOGY]))
([TimeInterval] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 233)
(disjoint [TimePoint])
(%3AisInModule [BASE_ONTOLOGY]))
([TimeIntervalFn] of BinaryFunction
(%3AidenticalTo
"Slot(TimeIntervalFn_2)"
"Instance(TimeIntervalFn_1 of Cls(TemporalRelation))")
(%3Adocumentation "\"A &%BinaryFunction that takes two &%TimePoints as arguments and returns the &%TimeInterval defined by these two &%TimePoints. Note that the first &%TimePoint must occur earlier than the second &%TimePoint.\"")
(%3ASUO-name "TimeIntervalFn"))
([TimeIntervalFn_1] of TemporalRelation
(%3AidenticalTo
"Slot(TimeIntervalFn_2)"
"Instance(TimeIntervalFn of Cls(BinaryFunction))")
(%3Adocumentation "\"A &%BinaryFunction that takes two &%TimePoints as arguments and returns the &%TimeInterval defined by these two &%TimePoints. Note that the first &%TimePoint must occur earlier than the second &%TimePoint.\"")
(%3ASUO-name "TimeIntervalFn"))
([TimeIntervalFn_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 903)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain2Class TimePoint)
(%3AidenticalTo
"Instance(TimeIntervalFn_1 of Cls(TemporalRelation))"
"Instance(TimeIntervalFn of Cls(BinaryFunction))")
(%3AAXIOMS "\n(UAX-349)\n(=>\n (and\n (instance ?POINT1 TimePoint)\n (instance ?POINT2 TimePoint)\n (instance ?INTERVAL TimeInterval)\n (equal (TimeIntervalFn ?POINT1 ?POINT2) ?INTERVAL))\n (and\n (equal (BeginFn ?INTERVAL) ?POINT1)\n (equal (EndFn ?INTERVAL) ?POINT2)))\n\n(UAX-350)\n(=>\n (and\n (instance ?POINT1 TimePoint)\n (instance ?POINT2 TimePoint)\n (instance ?INTERVAL TimeInterval)\n (equal (TimeIntervalFn ?POINT1 ?POINT2) ?INTERVAL))\n (forall (?POINT)\n (<=>\n (temporallyBetweenOrEqual ?POINT1 ?POINT ?POINT2)\n (temporalPart ?POINT ?INTERVAL))))\n")
(%3ASUO-name "TimeIntervalFn"))
([TimeMeasure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 230)
(%3AisInModule [BASE_ONTOLOGY]))
([TimePoint] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 234)
(disjoint [TimeInterval])
(%3AisInModule [BASE_ONTOLOGY]))
([TimePosition] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 232)
(partition
[TimeInterval]
[TimePoint])
(%3AisInModule [BASE_ONTOLOGY]))
([TimeZone] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1926)
(%3AisInModule [QUALITIES]))
([Tissue] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1682)
(disjointDecomposition
[Bone]
[Muscle]
[FatTissue])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS
[UAX-706]
[UAX-707]))
([top] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1041)
(%3AisInModule [MEREOTOPOLOGY])
(%3ADomain1Type Instance)
(%3AAXIOMS "\n(UAX-430)\n(=>\n (and\n (top ?TOP ?OBJECT)\n (part ?PART ?OBJECT)\n (not (connected ?PART ?TOP)))\n (orientation ?PART ?TOP Below))\n")
(%3ASUO-name "top"))
([totalOrderingOn] of BinaryPredicate
(%3Adocumentation "\"A &%BinaryRelation ?REL is a total ordering on a &%SetOrClass only if it is a partial ordering for which either (?REL ?INST1 ?INST2) or (?REL ?INST2 ?INST1) for every ?INST1 and ?INST2 in the &%SetOrClass.\"")
(%3AidenticalTo
"Instance(totalOrderingOn_1 of Cls(AsymmetricRelation))"
"Slot(totalOrderingOn_2)")
(%3ASUO-name "totalOrderingOn"))
([totalOrderingOn_1] of AsymmetricRelation
(%3Adocumentation "\"A &%BinaryRelation ?REL is a total ordering on a &%SetOrClass only if it is a partial ordering for which either (?REL ?INST1 ?INST2) or (?REL ?INST2 ?INST1) for every ?INST1 and ?INST2 in the &%SetOrClass.\"")
(%3AidenticalTo
"Instance(totalOrderingOn of Cls(BinaryPredicate))"
"Slot(totalOrderingOn_2)")
(%3ASUO-name "totalOrderingOn"))
([totalOrderingOn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 396)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(totalOrderingOn_1 of Cls(AsymmetricRelation))"
"Instance(totalOrderingOn of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-154)\n(<=>\n (totalOrderingOn ?RELATION ?CLASS)\n (and\n (partialOrderingOn ?RELATION ?CLASS)\n (trichotomizingOn ?RELATION ?CLASS)))\n")
(%3ASUO-name "totalOrderingOn"))
([TotalOrderingRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 271)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-096]))
([TotalValuedRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 248)
(disjoint [PartialValuedRelation])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-086])
(%3AidenticalTo "Instance(TotalValuedRelation_1 of Cls(InheritableRelation))"))
([TotalValuedRelation_1] of InheritableRelation
(%3Adocumentation "\"A &%Relation is a &%TotalValuedRelation just in case there exists an assignment for the last argument position of the &%Relation given any assignment of values to every argument position except the last one. Note that declaring a &%Relation to be both a &%TotalValuedRelation and a &%SingleValuedRelation means that it is a total function.\"")
(%3AidenticalTo "Cls(TotalValuedRelation)"))
([Touching] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1238)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-516]))
([TraitAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2103)
(disjoint [StateOfMind])
(%3AisInModule [QUALITIES]))
([Transaction] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1275)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-534]))
([transactionAmount] of BinaryPredicate
(%3Adocumentation "\"(&%transactionAmount ?TRANSACTION ?AMOUNT) means that ?AMOUNT is an instance of &%CurrencyMeasure being exhanged in the &%FinancialTransaction ?TRANSACTION.\"")
(%3AidenticalTo
"Instance(transactionAmount_1 of Cls(SingleValuedRelation))"
"Instance(transactionAmount_2 of Cls(TotalValuedRelation))"
"Slot(transactionAmount_3)")
(%3ASUO-name "transactionAmount"))
([transactionAmount_1] of SingleValuedRelation
(%3AidenticalTo
"Instance(transactionAmount of Cls(BinaryPredicate))"
"Instance(transactionAmount_2 of Cls(TotalValuedRelation))"
"Slot(transactionAmount_3)")
(%3Adocumentation "\"(&%transactionAmount ?TRANSACTION ?AMOUNT) means that ?AMOUNT is an instance of &%CurrencyMeasure being exhanged in the &%FinancialTransaction ?TRANSACTION.\"")
(%3ASUO-name "transactionAmount"))
([transactionAmount_2] of TotalValuedRelation
(%3AidenticalTo
"Instance(transactionAmount of Cls(BinaryPredicate))"
"Instance(transactionAmount_1 of Cls(SingleValuedRelation))"
"Slot(transactionAmount_3)")
(%3Adocumentation "\"(&%transactionAmount ?TRANSACTION ?AMOUNT) means that ?AMOUNT is an instance of &%CurrencyMeasure being exhanged in the &%FinancialTransaction ?TRANSACTION.\"")
(%3ASUO-name "transactionAmount"))
([transactionAmount_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1279)
(%3AisInModule [PROCESSES])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(transactionAmount of Cls(BinaryPredicate))"
"Instance(transactionAmount_1 of Cls(SingleValuedRelation))"
"Instance(transactionAmount_2 of Cls(TotalValuedRelation))")
(%3AAXIOMS "\n(UAX-536)\n(=>\n (transactionAmount ?TRANS ?AMOUNT)\n (exists (?OBJ)\n (and\n (patient ?TRANS ?OBJ)\n (monetaryValue ?OBJ ?AMOUNT))))\n")
(%3ASUO-name "transactionAmount"))
([Transfer] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1218)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-508]))
([TransitiveRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 266)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-094]))
([Transitway] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1537)
(%3AisInModule [OBJECTS]))
([Translating] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1374)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-582]))
([Translocation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1247)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-520]))
([Transportation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1249)
(relatedInternalConcept "TransportationDevice")
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-521]))
([TransportationDevice] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1785)
(relatedInternalConcept "Transportation")
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-753]))
([traverses] of SpatialRelation
(%3AidenticalTo
"Slot(traverses_2)"
"Instance(traverses_1 of Cls(BinaryRelation))")
(%3Adocumentation "\"(&%traverses ?OBJ1 ?OBJ2) means that ?OBJ1 crosses or extends across ?OBJ2. Note that &%crosses and &%penetrates are subrelations of &%traverses.\"")
(%3ASUO-name "traverses"))
([traverses_1] of BinaryRelation
(%3AidenticalTo
"Slot(traverses_2)"
"Instance(traverses of Cls(SpatialRelation))")
(%3Adocumentation "\"(&%traverses ?OBJ1 ?OBJ2) means that ?OBJ1 crosses or extends across ?OBJ2. Note that &%crosses and &%penetrates are subrelations of &%traverses.\"")
(%3ASUO-name "traverses"))
([traverses_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 438)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(traverses_1 of Cls(BinaryRelation))"
"Instance(traverses of Cls(SpatialRelation))")
(%3AAXIOMS "\n(UAX-174)\n(=>\n (traverses ?OBJ1 ?OBJ2)\n (or\n (crosses ?OBJ1 ?OBJ2)\n (penetrates ?OBJ1 ?OBJ2)))\n")
(%3ASUO-name "traverses"))
([Tree] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 591)
(%3AisInModule [GRAPH_THEORY])
(%3ASLOT-CONSTRAINTS [UAX-241]))
([Triangle] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2019)
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS [UAX-843]))
([trichotomizingOn] of BinaryPredicate
(%3Adocumentation "\"A &%BinaryRelation ?REL is trichotomizing on a &%SetOrClass only if, for all instances ?INST1 and ?INST2 of the &%SetOrClass, at least one of the following holds: (?REL ?INST1 ?INST2), (?REL ?INST2 ?INST1) or (equal ?INST1 ?INST2).\"")
(%3AidenticalTo
"Instance(trichotomizingOn_1 of Cls(AsymmetricRelation))"
"Slot(trichotomizingOn_2)")
(%3ASUO-name "trichotomizingOn"))
([trichotomizingOn%2410] of %3ASUMOProposition
(%3ALOAD-SEQUENCE 202)
(%3AliteralTranscription "(trichotomizingOn greaterThan RealNumber)")
(%3AisInModule [BASE_ONTOLOGY])
(%3Adocumentation "\"(&%greaterThan ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is greater than the &%Quantity ?NUMBER2.\"")
(%3AargumentList
"trichotomizingOn"
"greaterThan"
"RealNumber"))
([trichotomizingOn%2411] of %3ASUMOProposition
(%3ALOAD-SEQUENCE 203)
(%3AliteralTranscription "(trichotomizingOn lessThanOrEqualTo RealNumber)")
(%3AisInModule [BASE_ONTOLOGY])
(%3Adocumentation "\"(&%lessThanOrEqualTo ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is less than or equal to the &%Quantity ?NUMBER2.\"")
(%3AargumentList
"trichotomizingOn"
"lessThanOrEqualTo"
"RealNumber"))
([trichotomizingOn%2412] of %3ASUMOProposition
(%3ALOAD-SEQUENCE 205)
(%3AliteralTranscription "(trichotomizingOn greaterThanOrEqualTo RealNumber)")
(%3AisInModule [BASE_ONTOLOGY])
(%3Adocumentation "\"(&%greaterThanOrEqualTo ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is greater than the &%Quantity ?NUMBER2.\"")
(%3AargumentList
"trichotomizingOn"
"greaterThanOrEqualTo"
"RealNumber"))
([trichotomizingOn%249] of %3ASUMOProposition
(%3ALOAD-SEQUENCE 201)
(%3AliteralTranscription "(trichotomizingOn lessThan RealNumber)")
(%3AisInModule [BASE_ONTOLOGY])
(%3Adocumentation "\"(&%lessThan ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is less than the &%Quantity ?NUMBER2.\"")
(%3AargumentList
"trichotomizingOn"
"lessThan"
"RealNumber"))
([trichotomizingOn_1] of AsymmetricRelation
(%3Adocumentation "\"A &%BinaryRelation ?REL is trichotomizing on a &%SetOrClass only if, for all instances ?INST1 and ?INST2 of the &%SetOrClass, at least one of the following holds: (?REL ?INST1 ?INST2), (?REL ?INST2 ?INST1) or (equal ?INST1 ?INST2).\"")
(%3AidenticalTo
"Instance(trichotomizingOn of Cls(BinaryPredicate))"
"Slot(trichotomizingOn_2)")
(%3ASUO-name "trichotomizingOn"))
([trichotomizingOn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 398)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(trichotomizingOn_1 of Cls(AsymmetricRelation))"
"Instance(trichotomizingOn of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-155)\n(=>\n (trichotomizingOn ?RELATION ?CLASS)\n (forall (?INST1 ?INST2)\n (=>\n (and\n (instance ?INST1 ?CLASS)\n (instance ?INST2 ?CLASS))\n (or\n (holds ?RELATION ?INST1 ?INST2)\n (holds ?RELATION ?INST2 ?INST1)\n (equal ?INST1 ?INST2)))))\n")
(%3ASUO-name "trichotomizingOn"))
([TrichotomizingRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 264)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-093]))
([True] of TruthValue
(contraryAttribute_2 [False])
(%3Adocumentation "\"The &%TruthValue of being true.\"")
(%3ASUO-name "True"))
([true] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1895)
(%3AisInModule [QUALITIES])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(true_1 of Cls(BinaryPredicate))")
(%3ASUO-name "true"))
([true_1] of BinaryPredicate
(%3AidenticalTo "Slot(true)")
(%3ASUO-name "true"))
([TruthValue] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1887)
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS [UAX-793]))
([Tuesday] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 981)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS [UAX-395]))
([TwoDimensionalAngle] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2013)
(%3AisInModule [QUALITIES]))
([TwoDimensionalFigure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 2011)
(disjoint
[GeometricPoint]
[OneDimensionalFigure]
[ThreeDimensionalFigure])
(partition
[OpenTwoDimensionalFigure]
[ClosedTwoDimensionalFigure])
(%3AisInModule [QUALITIES]))
([UAX-001] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 13)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (immediateInstance ?ENTITY ?CLASS)\n (not (exists (?SUBCLASS)\n (and\n (subclass ?SUBCLASS ?CLASS)\n (instance ?ENTITY ?SUBCLASS)))))"))
([UAX-002] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 15)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (inverse ?REL1 ?REL2)\n (forall (?INST1 ?INST2)\n (<=>\n (holds ?REL1 ?INST1 ?INST2)\n (holds ?REL2 ?INST2 ?INST1))))"))
([UAX-003] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 17)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (subclass ?SUBCLASS ?CLASS)\n (and\n (instance ?SUBCLASS SetOrClass)\n (instance ?CLASS SetOrClass)\n (forall (?INST)\n (=>\n (instance ?INST ?SUBCLASS)\n (instance ?INST ?CLASS)))))"))
([UAX-004] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 19)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (immediateSubclass ?CLASS1 ?CLASS2)\n (not (exists (?CLASS3)\n (and\n (subclass ?CLASS3 ?CLASS2)\n (subclass ?CLASS1 ?CLASS3)\n (not (equal ?CLASS2 ?CLASS3))\n (not (equal ?CLASS1 ?CLASS3))))))"))
([UAX-005] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 21)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (subrelation ?PRED1 ?PRED2)\n (valence ?PRED1 ?NUMBER))\n (valence ?PRED2 ?NUMBER))"))
([UAX-006] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 22)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (subrelation ?PRED1 ?PRED2)\n (domain ?PRED2 ?NUMBER ?CLASS1))\n (domain ?PRED1 ?NUMBER ?CLASS1))"))
([UAX-007] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 23)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (subrelation ?REL1 ?REL2)\n (holds ?REL1 @ROW))\n (holds ?REL2 @ROW))"))
([UAX-008] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 24)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (subrelation ?PRED1 ?PRED2)\n (instance ?PRED2 ?CLASS)\n (instance ?CLASS InheritableRelation))\n (instance ?PRED1 ?CLASS))"))
([UAX-009] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 26)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (domain ?REL ?NUMBER ?CLASS1)\n (domain ?REL ?NUMBER ?CLASS2))\n (or\n (subclass ?CLASS1 ?CLASS2)\n (subclass ?CLASS2 ?CLASS1)))"))
([UAX-010] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 28)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (subrelation ?REL1 ?REL2)\n (domainSubclass ?REL2 ?NUMBER ?CLASS1))\n (domainSubclass ?REL1 ?NUMBER ?CLASS1))"))
([UAX-011] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 29)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (domainSubclass ?REL ?NUMBER ?CLASS1)\n (domainSubclass ?REL ?NUMBER ?CLASS2))\n (or\n (subclass ?CLASS1 ?CLASS2)\n (subclass ?CLASS2 ?CLASS1)))"))
([UAX-012] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 31)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (equal ?THING1 ?THING2)\n (forall (?ATTR)\n (<=>\n (property ?THING1 ?ATTR)\n (property ?THING2 ?ATTR))))"))
([UAX-013] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 32)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (equal ?ATTR1 ?ATTR2)\n (forall (?THING)\n (<=>\n (property ?THING ?ATTR1)\n (property ?THING ?ATTR2))))"))
([UAX-014] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 33)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (equal ?THING1 ?THING2)\n (forall (?CLASS)\n (<=>\n (instance ?THING1 ?CLASS)\n (instance ?THING2 ?CLASS))))"))
([UAX-015] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 34)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (equal ?CLASS1 ?CLASS2)\n (forall (?THING)\n (<=>\n (instance ?THING ?CLASS1)\n (instance ?THING ?CLASS2))))"))
([UAX-016] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 35)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (equal ?REL1 ?REL2)\n (forall (@ROW)\n (<=>\n (holds ?REL1 @ROW)\n (holds ?REL2 @ROW))))"))
([UAX-017] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 36)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (equal (ListFn @ROW1) (ListFn @ROW2))\n (<=>\n (holds @ROW1)\n (holds @ROW2)))"))
([UAX-018] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 37)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (equal ?LIST1 ?LIST2)\n (=>\n (and\n (equal ?LIST1 (ListFn @ROW1))\n (equal ?LIST2 (ListFn @ROW2)))\n (forall (?NUMBER)\n (equal (ListOrderFn (ListFn @ROW1) ?NUMBER) (ListOrderFn (ListFn @ROW2) ?NUMBER)))))"))
([UAX-019] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 39)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (range ?FUNCTION ?CLASS)\n (equal (AssignmentFn ?FUNCTION @ROW) ?VALUE))\n (instance ?VALUE ?CLASS))"))
([UAX-020] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 40)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (subrelation ?REL1 ?REL2)\n (range ?REL2 ?CLASS1))\n (range ?REL1 ?CLASS1))"))
([UAX-021] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 41)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (range ?REL ?CLASS1)\n (range ?REL ?CLASS2))\n (or\n (subclass ?CLASS1 ?CLASS2)\n (subclass ?CLASS2 ?CLASS1)))"))
([UAX-022] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 43)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (rangeSubclass ?FUNCTION ?CLASS)\n (equal (AssignmentFn ?FUNCTION @ROW) ?VALUE))\n (subclass ?VALUE ?CLASS))"))
([UAX-023] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 44)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (subrelation ?REL1 ?REL2)\n (rangeSubclass ?REL2 ?CLASS1))\n (rangeSubclass ?REL1 ?CLASS1))"))
([UAX-024] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 45)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (rangeSubclass ?REL ?CLASS1)\n (rangeSubclass ?REL ?CLASS2))\n (or\n (subclass ?CLASS1 ?CLASS2)\n (subclass ?CLASS2 ?CLASS1)))"))
([UAX-025] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 49)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (disjoint ?CLASS1 ?CLASS2)\n (and\n (instance ?CLASS1 NonNullSet)\n (instance ?CLASS2 NonNullSet)\n (forall (?INST)\n (not\n (and\n (instance ?INST ?CLASS1)\n (instance ?INST ?CLASS2))))))"))
([UAX-026] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 51)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (disjointRelation @ROW)\n (inList ?REL (ListFn @ROW)))\n (instance ?REL Relation))"))
([UAX-027] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 52)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (disjointRelation @ROW)\n (inList ?REL1 (ListFn @ROW))\n (inList ?REL2 (ListFn @ROW))\n (valence ?REL1 ?NUMBER))\n (valence ?REL2 ?NUMBER))"))
([UAX-028] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 53)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (domain ?REL1 ?NUMBER ?CLASS1)\n (domain ?REL2 ?NUMBER ?CLASS2)\n (disjoint ?CLASS1 ?CLASS2))\n (disjointRelation ?REL1 ?REL2))"))
([UAX-029] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 54)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (domainSubclass ?REL1 ?NUMBER ?CLASS1)\n (domainSubclass ?REL2 ?NUMBER ?CLASS2)\n (disjoint ?CLASS1 ?CLASS2))\n (disjointRelation ?REL1 ?REL2))"))
([UAX-030] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 55)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (range ?REL1 ?CLASS1)\n (range ?REL2 ?CLASS2)\n (disjoint ?CLASS1 ?CLASS2))\n (disjointRelation ?REL1 ?REL2))"))
([UAX-031] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 56)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (rangeSubclass ?REL1 ?CLASS1)\n (rangeSubclass ?REL2 ?CLASS2)\n (disjoint ?CLASS1 ?CLASS2))\n (disjointRelation ?REL1 ?REL2))"))
([UAX-032] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 57)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (disjointRelation @ROW1)\n (inList ?REL1 (ListFn @ROW1))\n (inList ?REL2 (ListFn @ROW1))\n (not (equal ?REL1 ?REL2))\n (holds ?REL1 @ROW2))\n (not (holds ?REL2 @ROW2)))"))
([UAX-033] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 60)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (contraryAttribute @ROW)\n (=>\n (inList ?ELEMENT (ListFn @ROW))\n (instance ?ELEMENT Attribute)))"))
([UAX-034] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 61)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (contraryAttribute @ROW)\n (forall (?ATTR1 ?ATTR2)\n (=>\n (and\n (equal ?ATTR1 (ListOrderFn (ListFn @ROW) ?NUMBER1))\n (equal ?ATTR2 (ListOrderFn (ListFn @ROW) ?NUMBER2))\n (not (equal ?NUMBER1 ?NUMBER2)))\n (=>\n (property ?OBJ ?ATTR1)\n (not (property ?OBJ ?ATTR2))))))"))
([UAX-035] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 63)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (exhaustiveAttribute ?CLASS @ROW)\n (=>\n (inList ?ATTR (ListFn @ROW))\n (instance ?ATTR Attribute)))"))
([UAX-036] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 64)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (exhaustiveAttribute ?CLASS @ROW)\n (forall (?OBJ)\n (=>\n (instance ?ATTR1 ?CLASS)\n (exists (?ATTR2)\n (and\n (inList ?ATTR2 (ListFn @ROW))\n (equal ?ATTR1 ?ATTR2))))))"))
([UAX-037] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 66)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (exhaustiveDecomposition @ROW)\n (=>\n (inList ?ELEMENT (ListFn @ROW))\n (instance ?ELEMENT Class)))"))
([UAX-038] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 68)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (disjointDecomposition @ROW)\n (=>\n (inList ?ELEMENT (ListFn @ROW))\n (instance ?ELEMENT Class)))"))
([UAX-039] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 70)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (partition @ROW)\n (and\n (exhaustiveDecomposition @ROW)\n (disjointDecomposition @ROW)))"))
([UAX-040] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 77)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (subAttribute ?ATTR1 ?ATTR2)\n (forall (?OBJ)\n (=>\n (property ?OBJ ?ATTR1)\n (property ?OBJ ?ATTR2))))"))
([UAX-041] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 78)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (subAttribute ?ATTR1 ?ATTR2)\n (instance ?ATTR2 ?CLASS))\n (instance ?ATTR1 ?CLASS))"))
([UAX-042] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 80)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (successorAttribute ?ATTR1 ?ATTR2)\n (holdsDuring ?TIME1 (property ?ENTITY ?ATTR2)))\n (exists (?TIME2)\n (and\n (temporalPart ?TIME2 (PastFn ?TIME1))\n (holdsDuring ?TIME2 (property ?ENTITY ?ATTR1)))))"))
([UAX-043] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 82)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (successorAttribute ?ATTR1 ?ATTR2)\n (successorAttributeClosure ?ATTR1 ?ATTR2))"))
([UAX-044] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 95)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?REL Function)\n (<=>\n (equal (AssignmentFn ?REL @ROW) ?INST)\n (holds ?REL @ROW ?INST)))"))
([UAX-045] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 104)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(exists (?THING) (instance ?THING Entity))"))
([UAX-046] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 105)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (instance ?CLASS Class)\n (subclass ?CLASS Entity))"))
([UAX-047] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 107)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (instance ?PHYS Physical)\n (exists (?LOC ?TIME)\n (and\n (located ?PHYS ?LOC)\n (time ?PHYS ?TIME))))"))
([UAX-048] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 111)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?OBJ SelfConnectedObject)\n (side (FrontFn ?OBJ) ?OBJ))"))
([UAX-049] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 113)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?OBJ SelfConnectedObject)\n (side (BackFn ?OBJ) ?OBJ))"))
([UAX-050] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 116)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (properPart ?OBJ1 ?OBJ2)\n (and\n (part ?OBJ1 ?OBJ2)\n (not\n (part ?OBJ2 ?OBJ1))))"))
([UAX-051] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 118)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (piece ?SUBSTANCE1 ?SUBSTANCE2)\n (forall (?CLASS)\n (=>\n (instance ?SUBSTANCE1 ?CLASS)\n (instance ?SUBSTANCE2 ?CLASS))))"))
([UAX-052] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 122)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (contains ?OBJ1 ?OBJ2)\n (exists (?HOLE)\n (and\n (hole ?HOLE ?OBJ1)\n (properlyFills ?OBJ2 ?HOLE))))"))
([UAX-053] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 124)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (subclass ?OBJECTTYPE Substance)\n (instance ?OBJECT ?OBJECTTYPE)\n (part ?PART ?OBJECT))\n (instance ?PART ?OBJECTTYPE))"))
([UAX-054] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 125)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?OBJ Substance)\n (attribute ?OBJ ?ATTR)\n (part ?PART ?OBJ))\n (attribute ?PART ?ATTR))"))
([UAX-055] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 130)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?ATOM Atom)\n (exists (?PROTON ?ELECTRON)\n (and\n (component ?PROTON ?ATOM)\n (component ?ELECTRON ?ATOM)\n (instance ?PROTON Proton)\n (instance ?ELECTRON Electron))))"))
([UAX-056] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 131)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?ATOM Atom)\n (forall (?NUCLEUS1 ?NUCLEUS2)\n (=>\n (and\n (component ?NUCLEUS1 ?ATOM)\n (component ?NUCLEUS2 ?ATOM)\n (instance ?NUCLEUS1 AtomicNucleus)\n (instance ?NUCLEUS2 AtomicNucleus))\n (equal ?NUCLEUS1 ?NUCLEUS2))))"))
([UAX-057] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 133)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?PARTICLE SubatomicParticle)\n (exists (?ATOM)\n (and\n (instance ?ATOM Atom)\n (part ?PARTICLE ?ATOM))))"))
([UAX-058] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 135)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?NUCLEUS AtomicNucleus)\n (exists (?NEUTRON ?PROTON)\n (and\n (component ?NEUTRON ?NUCLEUS)\n (component ?PROTON ?NUCLEUS)\n (instance ?NEUTRON Neutron)\n (instance ?PROTON Proton))))"))
([UAX-059] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 141)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?MIXTURE Mixture)\n (exists (?PURE1 ?PURE2)\n (and\n (instance ?PURE1 PureSubstance)\n (instance ?PURE2 PureSubstance)\n (not (equal ?PURE1 ?PURE2))\n (part ?PURE1 ?MIXTURE)\n (part ?PURE2 ?MIXTURE))))"))
([UAX-060] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 142)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?MIXTURE Mixture)\n (part ?SUBSTANCE ?MIXTURE)\n (not (instance ?SUBSTANCE Mixture)))\n (instance ?SUBSTANCE PureSubstance))"))
([UAX-061] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 145)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?OBJ CorpuscularObject)\n (exists (?SUBSTANCE1 ?SUBSTANCE2)\n (and\n (subclass ?SUBSTANCE1 Substance)\n (subclass ?SUBSTANCE2 Substance)\n (material ?SUBSTANCE1 ?OBJ)\n (material ?SUBSTANCE2 ?OBJ)\n (not (equal ?SUBSTANCE1 ?SUBSTANCE2)))))"))
([UAX-062] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 147)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?REGION Region)\n (exists (?PHYS)\n (located ?PHYS ?REGION)))"))
([UAX-063] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 149)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?COLL Collection)\n (exists (?OBJ)\n (member ?OBJ ?COLL)))"))
([UAX-064] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 152)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (subCollection ?COLL1 ?COLL2)\n (and\n (instance ?COLL1 Collection)\n (instance ?COLL2 Collection)\n (forall (?MEMBER)\n (=>\n (member ?MEMBER ?COLL1)\n (member ?MEMBER ?COLL2)))))"))
([UAX-065] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 156)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?STRING SymbolicString)\n (exists (?PART)\n (and\n (part ?PART ?STRING)\n (instance ?PART Character))))"))
([UAX-066] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 163)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?LANG AnimalLanguage)\n (agent ?PROC ?AGENT)\n (instrument ?PROC ?LANG))\n (and\n (instance ?AGENT Animal)\n (not (instance ?AGENT Human))))"))
([UAX-067] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 166)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?LANG ComputerLanguage)\n (agent ?PROC ?AGENT)\n (instrument ?PROC ?LANG))\n (instance ?AGENT Machine))"))
([UAX-068] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 168)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?LANG HumanLanguage)\n (agent ?PROC ?AGENT)\n (instrument ?PROC ?LANG))\n (instance ?AGENT Human))"))
([UAX-069] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 170)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?LANG ConstructedLanguage)\n (exists (?PLAN)\n (and\n (instance ?PLAN Planning)\n (result ?PLAN ?LANG))))"))
([UAX-070] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 178)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (instance ?AGENT Agent)\n (exists (?PROC)\n (agent ?PROC ?AGENT)))"))
([UAX-071] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 184)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?PROCESS DualObjectProcess)\n (exists (?OBJ1 ?OBJ2)\n (and\n (patient ?PROCESS ?OBJ1)\n (patient ?PROCESS ?OBJ2)\n (not (equal ?OBJ1 ?OBJ2)))))"))
([UAX-072] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 187)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (instance ?ABS Abstract)\n (not\n (exists (?POINT)\n (or\n (located ?ABS ?POINT)\n (time ?ABS ?POINT)))))"))
([UAX-073] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 194)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (equal (AbstractionFn ?CLASS) ?ATTR)\n (forall (?INST)\n (<=>\n (instance ?INST ?CLASS)\n (property ?INST ?ATTR))))"))
([UAX-074] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 196)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (equal (ExtensionFn ?ATTRIBUTE) ?CLASS)\n (equal (AbstractionFn ?CLASS) ?ATTRIBUTE))"))
([UAX-075] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 204)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (lessThanOrEqualTo ?NUMBER1 ?NUMBER2)\n (or\n (equal ?NUMBER1 ?NUMBER2)\n (lessThan ?NUMBER1 ?NUMBER2)))"))
([UAX-076] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 206)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (greaterThanOrEqualTo ?NUMBER1 ?NUMBER2)\n (or\n (equal ?NUMBER1 ?NUMBER2)\n (greaterThan ?NUMBER1 ?NUMBER2)))"))
([UAX-077] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 209)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER ImaginaryNumber)\n (exists (?REAL)\n (and\n (instance ?REAL RealNumber)\n (equal ?NUMBER (MultiplicationFn ?REAL (SquareRootFn -1))))))"))
([UAX-078] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 213)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (instance ?NUMBER NonnegativeRealNumber)\n (and\n (greaterThanOrEqualTo ?NUMBER 0)\n (instance ?NUMBER RealNumber)))"))
([UAX-079] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 215)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (instance ?NUMBER PositiveRealNumber)\n (and\n (greaterThan ?NUMBER 0)\n (instance ?NUMBER RealNumber)))"))
([UAX-080] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 217)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (instance ?NUMBER NegativeRealNumber)\n (and\n (lessThan ?NUMBER 0)\n (instance ?NUMBER RealNumber)))"))
([UAX-081] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 227)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER ComplexNumber)\n (exists (?REAL1 ?REAL2)\n (and\n (instance ?REAL1 RealNumber)\n (instance ?REAL2 RealNumber)\n (equal ?NUMBER (AdditionFn ?REAL1 (MultiplicationFn ?REAL2 (SquareRootFn -1)))))))"))
([UAX-082] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 237)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?FUNCTION UnaryConstantFunctionQuantity)\n (and\n (domain ?FUNCTION 1 ConstantQuantity)\n (range ?FUNCTION ConstantQuantity)))"))
([UAX-083] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 239)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?FUNCTION TimeDependentQuantity)\n (domain ?FUNCTION 1 TimeMeasure))"))
([UAX-084] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 244)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?REL Relation)\n (<=>\n (holds ?REL @ROW)\n (?REL @ROW)))"))
([UAX-085] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 247)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?REL SingleValuedRelation)\n (forall (@ROW ?ITEM1 ?ITEM2)\n (=>\n (and\n (holds ?REL @ROW ?ITEM1)\n (holds ?REL @ROW ?ITEM2))\n (equal ?ITEM1 ?ITEM2))))"))
([UAX-086] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 249)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (instance ?REL TotalValuedRelation)\n (exists (?VALENCE)\n (and\n (instance ?REL Relation)\n (valence ?REL ?VALENCE)\n (=>\n (forall (?NUMBER ?ELEMENT ?CLASS)\n (=>\n (and\n (lessThan ?NUMBER ?VALENCE)\n (domain ?REL ?NUMBER ?CLASS)\n (equal ?ELEMENT (ListOrderFn (ListFn @ROW) ?NUMBER)))\n (instance ?ELEMENT ?CLASS)))\n (exists (?ITEM)\n (holds ?REL @ROW ?ITEM))))))"))
([UAX-087] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 253)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?REL BinaryRelation)\n (not\n (exists (?ITEM1 ?ITEM2 ?ITEM3 @ROW)\n (holds ?REL ?ITEM1 ?ITEM2 ?ITEM3 @ROW))))"))
([UAX-088] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 255)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?REL ReflexiveRelation)\n (=>\n (or\n (holds ?REL ?INST1 ?INST2)\n (holds ?REL ?INST2 ?INST1))\n (holds ?REL ?INST1 ?INST1)))"))
([UAX-089] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 257)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?REL IrreflexiveRelation)\n (forall (?INST)\n (not\n (holds ?REL ?INST ?INST))))"))
([UAX-090] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 259)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?REL SymmetricRelation)\n (forall (?INST1 ?INST2)\n (=>\n (holds ?REL ?INST1 ?INST2)\n (holds ?REL ?INST2 ?INST1))))"))
([UAX-091] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 261)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?REL BinaryRelation)\n (or\n (domain ?REL 1 ?CLASS1)\n (domainSubclass ?REL 1 ?CLASS1))\n (or\n (domain ?REL 2 ?CLASS2)\n (domainSubclass ?REL 2 ?CLASS2)\n (range ?REL ?CLASS2)\n (rangeSubclass ?REL ?CLASS2))\n (disjoint ?CLASS1 ?CLASS2))\n (instance ?REL AsymmetricRelation))"))
([UAX-092] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 263)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?REL AntisymmetricRelation)\n (forall (?INST1 ?INST2)\n (=>\n (and\n (holds ?REL ?INST1 ?INST2)\n (holds ?REL ?INST2 ?INST1))\n (equal ?INST1 ?INST2))))"))
([UAX-093] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 265)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?REL TrichotomizingRelation)\n (forall (?INST1 ?INST2)\n (or\n (holds ?REL ?INST1 ?INST2)\n (equal ?INST1 ?INST2)\n (holds ?REL ?INST2 ?INST1))))"))
([UAX-094] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 267)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?REL TransitiveRelation)\n (forall (?INST1 ?INST2 ?INST3)\n (=>\n (and\n (holds ?REL ?INST1 ?INST2)\n (holds ?REL ?INST2 ?INST3))\n (holds ?REL ?INST1 ?INST3))))"))
([UAX-095] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 269)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?REL IntransitiveRelation)\n (forall (?INST1 ?INST2 ?INST3)\n (=>\n (and\n (holds ?REL ?INST1 ?INST2)\n (holds ?REL ?INST2 ?INST3))\n (not\n (holds ?REL ?INST1 ?INST3)))))"))
([UAX-096] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 272)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?REL TotalOrderingRelation)\n (forall (?INST1 ?INST2)\n (or\n (holds ?REL ?INST1 ?INST2)\n (holds ?REL ?INST2 ?INST1))))"))
([UAX-097] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 276)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?PROCESS Process)\n (exists (?CAUSE)\n (agent ?PROCESS ?CAUSE)))"))
([UAX-098] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 289)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (increasesLikelihood ?FORMULA1 ?FORMULA2)\n (equal (ProbabilityFn ?FORMULA2) ?NUMBER1)\n (conditionalProbability ?FORMULA1 ?FORMULA2 ?NUMBER2))\n (greaterThan ?NUMBER2 ?NUMBER1))"))
([UAX-099] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 291)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (decreasesLikelihood ?FORMULA1 ?FORMULA2)\n (equal (ProbabilityFn ?FORMULA2) ?NUMBER1)\n (conditionalProbability ?FORMULA1 ?FORMULA2 ?NUMBER2))\n (lessThan ?NUMBER2 ?NUMBER1))"))
([UAX-100] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 293)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (independentProbability ?FORMULA1 ?FORMULA2)\n (equal (ProbabilityFn ?FORMULA2) ?NUMBER1)\n (conditionalProbability ?FORMULA1 ?FORMULA2 ?NUMBER2))\n (equal ?NUMBER2 ?NUMBER1))"))
([UAX-101] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 294)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?FORMULA1 Formula)\n (instance ?FORMULA2 Formula))\n (or\n (increasesLikelihood ?FORMULA1 ?FORMULA2)\n (decreasesLikelihood ?FORMULA1 ?FORMULA2)\n (independentProbability ?FORMULA1 ?FORMULA2)))"))
([UAX-102] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 298)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?REL IntentionalRelation)\n (holds ?REL ?AGENT @ROW)\n (inList ?OBJ (ListFn @ROW)))\n (inScopeOfInterest ?AGENT ?OBJ))"))
([UAX-103] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 300)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (prefers ?AGENT ?FORMULA1 ?FORMULA2)\n (not (and\n (true ?FORMULA1 True)\n (true ?FORMULA2 True))))"))
([UAX-104] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 302)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?REL PropositionalAttitude)\n (holds ?REL ?AGENT ?FORMULA))\n (instance ?FORMULA Formula))"))
([UAX-105] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 304)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?REL ObjectAttitude)\n (holds ?REL ?AGENT ?THING))\n (instance ?THING Physical))"))
([UAX-106] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 306)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?PROCESS IntentionalProcess)\n (agent ?PROCESS ?AGENT)\n (patient ?PROCESS ?OBJECT))\n (inScopeOfInterest ?AGENT ?OBJECT))"))
([UAX-107] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 308)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (needs ?AGENT ?OBJECT)\n (wants ?AGENT ?OBJECT))"))
([UAX-108] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 310)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (wants ?AGENT ?OBJ)\n (exists (?PURP)\n (hasPurposeForAgent ?OBJ ?PURP ?AGENT)))"))
([UAX-109] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 311)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (wants ?AGENT ?OBJ)\n (desires ?AGENT (possesses ?AGENT ?OBJ)))"))
([UAX-110] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 315)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (believes ?AGENT ?FORMULA)\n (exists (?TIME)\n (holdsDuring ?TIME (considers ?AGENT ?FORMULA))))"))
([UAX-111] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 317)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (knows ?AGENT ?FORMULA)\n (believes ?AGENT ?FORMULA))"))
([UAX-112] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 318)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (knows ?AGENT ?FORMULA)\n (true ?FORMULA True))"))
([UAX-113] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 320)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?REL TernaryRelation)\n (not\n (exists (?ITEM1 ?ITEM2 ?ITEM3 ?ITEM4 @ROW)\n (holds ?REL ?ITEM1 ?ITEM2 ?ITEM3 ?ITEM4 @ROW))))"))
([UAX-114] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 322)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?REL QuaternaryRelation)\n (not\n (exists (?ITEM1 ?ITEM2 ?ITEM3 ?ITEM4 ?ITEM5 @ROW)\n (holds ?REL ?ITEM1 ?ITEM2 ?ITEM3 ?ITEM4 ?ITEM5 @ROW))))"))
([UAX-115] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 324)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?REL QuintaryRelation)\n (not\n (exists (?ITEM1 ?ITEM2 ?ITEM3 ?ITEM4 ?ITEM5 ?ITEM6 @ROW)\n (holds ?REL ?ITEM1 ?ITEM2 ?ITEM3 ?ITEM4 ?ITEM5 ?ITEM6 @ROW))))"))
([UAX-116] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 326)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?LIST List)\n (exists (?NUMBER1)\n (exists (?ITEM1)\n (and\n (not (equal (ListOrderFn ?LIST ?NUMBER1) ?ITEM1))\n (forall (?NUMBER2)\n (=>\n (and\n (instance ?NUMBER2 PositiveInteger)\n (lessThan ?NUMBER2 ?NUMBER1))\n (exists (?ITEM2)\n (equal (ListOrderFn ?LIST ?NUMBER2) ?ITEM2))))))))"))
([UAX-117] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 328)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?LIST UniqueList)\n (forall (?NUMBER1 ?NUMBER2)\n (=>\n (equal (ListOrderFn ?LIST ?NUMBER1) (ListOrderFn ?LIST ?NUMBER2))\n (equal ?NUMBER1 ?NUMBER2))))"))
([UAX-118] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 330)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (equal ?LIST NullList)\n (and\n (instance ?LIST List)\n (not\n (exists (?ITEM)\n (inList ?ITEM ?LIST)))))"))
([UAX-119] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 332)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (exhaustiveDecomposition ?CLASS @ROW)\n (forall (?OBJ)\n (=>\n (instance ?OBJ ?CLASS)\n (exists (?ITEM)\n (and\n (inList ?ITEM (ListFn @ROW))\n (instance ?OBJ ?ITEM))))))"))
([UAX-120] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 333)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (disjointDecomposition ?CLASS @ROW)\n (forall (?ITEM)\n (=>\n (inList ?ITEM (ListFn @ROW))\n (subclass ?ITEM ?CLASS))))"))
([UAX-121] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 334)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (disjointDecomposition ?CLASS @ROW)\n (forall (?ITEM1 ?ITEM2)\n (=>\n (and\n (inList ?ITEM1 (ListFn @ROW))\n (inList ?ITEM2 (ListFn @ROW))\n (not\n (equal ?ITEM1 ?ITEM2)))\n (disjoint ?ITEM1 ?ITEM2))))"))
([UAX-122] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 336)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?LIST1 List)\n (instance ?LIST2 List)\n (forall (?NUMBER)\n (equal (ListOrderFn ?LIST1 ?NUMBER) (ListOrderFn ?LIST2 ?NUMBER))))\n (equal ?LIST1 ?LIST2))"))
([UAX-123] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 337)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (domain ?REL ?NUMBER ?CLASS)\n (holds ?REL @ROW))\n (instance (ListOrderFn (ListFn @ROW) ?NUMBER) ?CLASS))"))
([UAX-124] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 338)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (domainSubclass ?REL ?NUMBER ?CLASS)\n (holds ?REL @ROW))\n (subclass (ListOrderFn (ListFn @ROW) ?NUMBER) ?CLASS))"))
([UAX-125] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 340)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (equal (ListLengthFn ?LIST) ?NUMBER1)\n (instance ?LIST List)\n (instance ?NUMBER1 PositiveInteger))\n (forall (?NUMBER2)\n (<=>\n (exists (?ITEM)\n (and\n (equal (ListOrderFn ?LIST ?NUMBER2) ?ITEM)\n (inList ?ITEM ?LIST)))\n (lessThanOrEqualTo ?NUMBER2 ?NUMBER1))))"))
([UAX-126] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 341)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(equal (ListLengthFn (ListFn @ROW ?ITEM)) (SuccessorFn (ListLengthFn (ListFn @ROW))))"))
([UAX-127] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 342)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(equal (ListOrderFn (ListFn @ROW ?ITEM) (ListLengthFn (ListFn @ROW ?ITEM))) ?ITEM)"))
([UAX-128] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 343)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (valence ?REL ?NUMBER)\n (forall (@ROW)\n (=>\n (holds ?REL @ROW)\n (equal (ListLengthFn (ListFn @ROW)) ?NUMBER))))"))
([UAX-129] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 344)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (equal (ListLengthFn ?LIST1) ?NUMBER)\n (instance ?LIST List)\n (instance ?NUMBER1 PositiveInteger))\n (exists (?LIST2 ?ITEM)\n (and\n (initialList ?LIST1 ?LIST2)\n (equal (SuccessorFn ?NUMBER) (ListLengthFn ?LIST2))\n (equal (ListOrderFn ?LIST2 (SuccessorFn ?NUMBER)) ?ITEM))))"))
([UAX-130] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 346)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (equal ?LIST3 (ListConcatenateFn ?LIST1 ?LIST2))\n (forall (?NUMBER1 ?NUMBER2)\n (=>\n (and\n (lessThanOrEqualTo ?NUMBER1 (ListLengthFn ?LIST1))\n (lessThanOrEqualTo ?NUMBER2 (ListLengthFn ?LIST2))\n (instance ?NUMBER1 PositiveInteger)\n (instance ?NUMBER2 PositiveInteger))\n (and\n (equal (ListOrderFn ?LIST3 ?NUMBER1) (ListOrderFn ?LIST1 ?NUMBER1))\n (equal (ListOrderFn ?LIST3 (AdditionFn (ListLengthFn ?LIST1) ?NUMBER2)) (ListOrderFn ?LIST2 ?NUMBER2))))))"))
([UAX-131] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 348)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (inList ?ITEM ?LIST)\n (exists (?NUMBER)\n (equal (ListOrderFn ?LIST ?NUMBER) ?ITEM)))"))
([UAX-132] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 350)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (subList ?LIST1 ?LIST2)\n (forall (?ITEM)\n (=>\n (inList ?ITEM ?LIST1)\n (inList ?ITEM ?LIST2))))"))
([UAX-133] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 351)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (subList ?LIST1 ?LIST2)\n (exists (?NUMBER3)\n (forall (?ITEM)\n (=>\n (inList ?ITEM ?LIST1)\n (exists (?NUMBER1 ?NUMBER2)\n (and\n (equal (ListOrderFn ?LIST1 ?NUMBER1) ?ITEM)\n (equal (ListOrderFn ?LIST2 ?NUMBER2) ?ITEM)\n (equal ?NUMBER2 (AdditionFn ?NUMBER1 ?NUMBER3))))))))"))
([UAX-134] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 353)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (initialList ?LIST1 ?LIST2)\n (forall (?NUMBER1 ?NUMBER2)\n (=>\n (and\n (equal (ListLengthFn ?LIST1) ?NUMBER1)\n (lessThanOrEqualTo ?NUMBER2 ?NUMBER1))\n (equal (ListOrderFn ?LIST1 ?NUMBER2) (ListOrderFn ?LIST2 ?NUMBER2)))))"))
([UAX-135] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 354)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(initialList (ListFn @ROW) (ListFn @ROW ?ITEM))"))
([UAX-136] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 358)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?FUNCTION UnaryFunction)\n (valence ?FUNCTION 1))"))
([UAX-137] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 360)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?FUN OneToOneFunction)\n (forall (?ARG1 ?ARG2)\n (=>\n (and\n (domain ?FUN 1 ?CLASS)\n (instance ?ARG1 ?CLASS)\n (instance ?ARG2 ?CLASS)\n (not (equal ?ARG1 ?ARG2)))\n (not (equal (AssignmentFn ?FUN ?ARG1) (AssignmentFn ?FUN ?ARG2))))))"))
([UAX-138] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 362)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?SEQ SequenceFunction)\n (range ?SEQ ?CLASS))\n (subclass ?CLASS Integer))"))
([UAX-139] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 364)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?FUNCTION BinaryFunction)\n (valence ?FUNCTION 2))"))
([UAX-140] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 366)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?FUNCTION AssociativeFunction)\n (forall (?INST1 ?INST2 ?INST3)\n (=>\n (and\n (domain ?FUNCTION 1 ?CLASS)\n (instance ?INST1 ?CLASS)\n (instance ?INST2 ?CLASS)\n (instance ?INST3 ?CLASS))\n (equal (AssignmentFn ?FUNCTION ?INST1 (AssignmentFn ?FUNCTION ?INST2 ?INST3))\n (AssignmentFn ?FUNCTION (AssignmentFn ?FUNCTION ?INST1 ?INST2) ?INST3)))))"))
([UAX-141] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 368)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?FUNCTION CommutativeFunction)\n (forall (?INST1 ?INST2)\n (=>\n (and\n (domain ?FUNCTION 1 ?CLASS)\n (instance ?INST1 ?CLASS)\n (instance ?INST2 ?CLASS))\n (equal (AssignmentFn ?FUNCTION ?INST1 ?INST2)\n (AssignmentFn ?FUNCTION ?INST2 ?INST1)))))"))
([UAX-142] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 370)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?FUNCTION TernaryFunction)\n (valence ?FUNCTION 3))"))
([UAX-143] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 372)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?FUNCTION QuaternaryFunction)\n (valence ?FUNCTION 4))"))
([UAX-144] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 376)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?REL BinaryPredicate)\n (valence ?REL 2))"))
([UAX-145] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 378)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?REL TernaryPredicate)\n (valence ?REL 3))"))
([UAX-146] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 380)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?REL QuaternaryPredicate)\n (valence ?REL 4))"))
([UAX-147] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 382)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?REL QuintaryPredicate)\n (valence ?REL 5))"))
([UAX-148] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 384)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?REL VariableArityRelation)\n (not\n (exists (?INT)\n (valence ?REL ?INT))))"))
([UAX-149] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 388)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (closedOn ?FUNCTION ?CLASS)\n (instance ?FUNCTION UnaryFunction))\n (forall (?INST)\n (=>\n (instance ?INST ?CLASS)\n (instance (AssignmentFn ?FUNCTION ?INST) ?CLASS))))"))
([UAX-150] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 389)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (closedOn ?FUNCTION ?CLASS)\n (instance ?FUNCTION BinaryFunction))\n (forall (?INST1 ?INST2)\n (=>\n (and\n (instance ?INST1 ?CLASS)\n (instance ?INST2 ?CLASS))\n (instance (AssignmentFn ?FUNCTION ?INST1 ?INST2) ?CLASS))))"))
([UAX-151] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 391)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (reflexiveOn ?RELATION ?CLASS)\n (forall (?INST)\n (=>\n (instance ?INST ?CLASS)\n (holds ?RELATION ?INST ?INST))))"))
([UAX-152] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 393)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (irreflexiveOn ?RELATION ?CLASS)\n (forall (?INST)\n (=>\n (instance ?INST ?CLASS)\n (not\n (holds ?RELATION ?INST ?INST)))))"))
([UAX-153] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 395)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (partialOrderingOn ?RELATION ?CLASS)\n (and\n (reflexiveOn ?RELATION ?CLASS)\n (instance ?RELATION TransitiveRelation)\n (instance ?RELATION AntisymmetricRelation)))"))
([UAX-154] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 397)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (totalOrderingOn ?RELATION ?CLASS)\n (and\n (partialOrderingOn ?RELATION ?CLASS)\n (trichotomizingOn ?RELATION ?CLASS)))"))
([UAX-155] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 399)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (trichotomizingOn ?RELATION ?CLASS)\n (forall (?INST1 ?INST2)\n (=>\n (and\n (instance ?INST1 ?CLASS)\n (instance ?INST2 ?CLASS))\n (or\n (holds ?RELATION ?INST1 ?INST2)\n (holds ?RELATION ?INST2 ?INST1)\n (equal ?INST1 ?INST2)))))"))
([UAX-156] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 401)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (equivalenceRelationOn ?RELATION ?CLASS)\n (and\n (instance ?RELATION TransitiveRelation)\n (instance ?RELATION SymmetricRelation)\n (reflexiveOn ?RELATION ?CLASS)))"))
([UAX-157] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 403)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (distributes ?FUNCTION1 ?FUNCTION2)\n (forall (?INST1 ?INST2 ?INST3)\n (=>\n (and\n (domain ?FUNCTION1 1 ?CLASS1)\n (instance ?INST1 ?CLASS1)\n (instance ?INST2 ?CLASS1)\n (instance ?INST3 ?CLASS1)\n (domain ?FUNCTION2 1 ?CLASS2)\n (instance ?INST1 ?CLASS2)\n (instance ?INST2 ?CLASS2)\n (instance ?INST3 ?CLASS2))\n (equal (AssignmentFn ?FUNCTION1 ?INST1\n (AssignmentFn ?FUNCTION2 ?INST2 ?INST3))\n (AssignmentFn ?FUNCTION2\n (AssignmentFn ?FUNCTION1 ?INST1 ?INST2)\n (AssignmentFn ?FUNCTION1 ?INST1 ?INST3))))))"))
([UAX-158] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 405)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?PROC1 Process)\n (exists (?PROC2)\n (causes ?PROC2 ?PROC1)))"))
([UAX-159] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 407)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (causesSubclass ?PROC1 ?PROC2)\n (forall (?INST2)\n (=>\n (instance ?INST2 ?PROC2)\n (exists (?INST1)\n (and\n (instance ?INST1 ?PROC1)\n (causes ?INST1 ?INST2))))))"))
([UAX-160] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 409)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (copy ?OBJ1 ?OBJ2)\n (forall (?ATTR)\n (=>\n (attribute ?OBJ1 ?ATTR)\n (attribute ?OBJ2 ?ATTR))))"))
([UAX-161] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 412)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (holdsDuring ?TIME ?SITUATION1)\n (entails ?SITUATION1 ?SITUATION2))\n (holdsDuring ?TIME ?SITUATION2))"))
([UAX-162] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 413)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (holdsDuring ?TIME (not ?SITUATION))\n (not (holdsDuring ?TIME ?SITUATION)))"))
([UAX-163] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 415)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?ROLE CaseRole)\n (holds ?ROLE ?ARG1 ?ARG2)\n (instance ?ARG1 ?PROC)\n (subclass ?PROC Process))\n (capability ?PROC ?ROLE ?ARG2))"))
([UAX-164] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 417)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (exploits ?OBJ ?AGENT)\n (exists (?PROCESS)\n (and\n (agent ?PROCESS ?AGENT)\n (resource ?PROCESS ?OBJ))))"))
([UAX-165] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 420)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (hasPurpose ?THING ?PURPOSE)\n (exists (?AGENT)\n (hasPurposeForAgent ?THING ?PURPOSE ?AGENT)))"))
([UAX-166] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 422)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (hasSkill ?PROC ?AGENT)\n (capability ?PROC agent ?AGENT))"))
([UAX-167] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 425)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (confersRight ?FORMULA ?AGENT1 ?AGENT2)\n (holdsRight ?FORMULA ?AGENT2))"))
([UAX-168] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 428)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (confersObligation ?FORMULA ?AGENT1 ?AGENT2)\n (holdsObligation ?FORMULA ?AGENT2))"))
([UAX-169] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 430)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?OBJ1 Object)\n (partlyLocated ?OBJ1 ?OBJ2))\n (overlapsSpatially ?OBJ1 ?OBJ2))"))
([UAX-170] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 431)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?OBJ1 Object)\n (partlyLocated ?OBJ1 ?OBJ2))\n (exists (?SUB)\n (and\n (part ?SUB ?OBJ1)\n (located ?SUB ?OBJ2))))"))
([UAX-171] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 433)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (located ?OBJ1 ?OBJ2)\n (forall (?SUB)\n (=>\n (part ?SUB ?OBJ1)\n (located ?SUB ?OBJ2))))"))
([UAX-172] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 434)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (located ?PROCESS ?OBJ)\n (forall (?SUB)\n (=>\n (subProcess ?SUB ?PROCESS)\n (located ?SUB ?OBJ))))"))
([UAX-173] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 436)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (exactlyLocated ?OBJ ?REGION)\n (not\n (exists (?OTHEROBJ)\n (and\n (exactlyLocated ?OTHEROBJ ?REGION)\n (not\n (equal ?OTHEROBJ ?OBJ))))))"))
([UAX-174] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 439)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (traverses ?OBJ1 ?OBJ2)\n (or\n (crosses ?OBJ1 ?OBJ2)\n (penetrates ?OBJ1 ?OBJ2)))"))
([UAX-175] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 443)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (equal (WhereFn ?THING ?TIME) ?REGION)\n (holdsDuring ?TIME (exactlyLocated ?THING ?REGION)))"))
([UAX-176] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 445)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (possesses ?PERSON ?OBJ)\n (holdsRight (uses ?OBJ ?PERSON) ?PERSON))"))
([UAX-177] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 446)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?TIME TimePosition)\n (holdsDuring ?TIME (possesses ?AGENT1 ?OBJ))\n (holdsDuring ?TIME (possesses ?AGENT2 ?OBJ)))\n (equal ?AGENT1 ?AGENT2))"))
([UAX-178] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 448)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (instance ?OBJ (PropertyFn ?PERSON))\n (possesses ?PERSON ?OBJ))"))
([UAX-179] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 450)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (precondition ?PROC1 ?PROC2)\n (=>\n (exists (?INST2) (instance ?INST2 ?PROC2))\n (exists (?INST1) (instance ?INST1 ?PROC1))))"))
([UAX-180] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 452)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (inhibits ?PROC1 ?PROC2)\n (forall (?TIME ?PLACE)\n (decreasesLikelihood\n (holdsDuring ?TIME (exists (?INST1) (and (instance ?INST1 ?PROC1) (located ?INST1 ?PLACE))))\n (holdsDuring ?TIME (exists (?INST2) (and (instance ?INST2 ?PROC2) (located ?INST2 ?PLACE)))))))"))
([UAX-181] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 454)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (prevents ?PROC1 ?PROC2)\n (forall (?TIME ?PLACE)\n (=>\n (holdsDuring ?TIME (exists (?INST1) (and (instance ?INST1 ?PROC1) (located ?INST1 ?PLACE))))\n (not (holdsDuring ?TIME (exists (?INST2) (and (instance ?INST2 ?PROC2) (located ?INST2 ?PLACE))))))))"))
([UAX-182] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 460)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (representsForAgent ?REP ?ENTITY ?AGENT)\n (represents ?REP ?ENTITY))"))
([UAX-183] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 462)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (representsInLanguage ?REP ?ENTITY ?LANGUAGE)\n (exists (?AGENT)\n (representsForAgent ?REP ?ENTITY ?AGENT)))"))
([UAX-184] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 464)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (and\n (subsumesContentClass ?CLASS1 ?CLASS2)\n (subsumesContentClass ?CLASS2 ?CLASS1))\n (equivalentContentClass ?CLASS1 ?CLASS2))"))
([UAX-185] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 466)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (subsumesContentClass ?CLASS1 ?CLASS2)\n (forall (?OBJ2 ?INFO)\n (=>\n (and\n (instance ?OBJ2 ?CLASS2)\n (containsInformation ?OBJ2 ?INFO))\n (exists (?OBJ1)\n (and\n (instance ?OBJ1 ?CLASS1)\n (containsInformation ?OBJ1 ?INFO))))))"))
([UAX-186] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 468)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (and\n (subsumesContentInstance ?OBJ1 ?OBJ2)\n (subsumesContentInstance ?OBJ2 ?OBJ1))\n (equivalentContentInstance ?OBJ1 ?OBJ2))"))
([UAX-187] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 470)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (subsumesContentInstance ?OBJ1 ?OBJ2)\n (forall (?INFO)\n (=>\n (containsInformation ?OBJ2 ?INFO)\n (containsInformation ?OBJ1 ?INFO))))"))
([UAX-188] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 472)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (realization ?PROCESS ?PROP)\n (exists (?OBJ)\n (and\n (instance ?OBJ ContentBearingObject)\n (containsInformation ?OBJ ?PROP))))"))
([UAX-189] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 474)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(<=>\n (expressedInLanguage ?EXPRESS ?LANGUAGE)\n (exists (?PROP)\n (representsInLanguage ?EXPRESS ?PROP ?LANGUAGE)))"))
([UAX-190] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 476)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (subProposition ?PROP1 ?PROP2)\n (forall (?OBJ1 ?OBJ2)\n (=>\n (and\n (containsInformation ?OBJ1 ?PROP1)\n (containsInformation ?OBJ2 ?PROP2))\n (subsumesContentInstance ?OBJ2 ?OBJ1))))"))
([UAX-191] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 479)
(%3AisInModule [BASE_ONTOLOGY])
(%3APAL-STATEMENT "(=>\n (uses ?OBJ ?AGENT)\n (exists (?PROC)\n (and\n (agent ?PROC ?AGENT)\n (instrument ?PROC ?OBJ))))"))
([UAX-192] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 486)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(equal (SuccessorFn ?NUMBER) (AdditionFn ?NUMBER 1))"))
([UAX-193] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 488)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(equal (PredecessorFn ?NUMBER) (SubtractionFn ?NUMBER 1))"))
([UAX-194] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 490)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RationalNumber)\n (exists (?INT1 ?INT2)\n (and\n (instance ?INT1 Integer)\n (instance ?INT2 Integer)\n (equal ?NUMBER (DivisionFn ?INT1 ?INT2)))))"))
([UAX-195] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 492)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(<=>\n (and\n (equal (AbsoluteValueFn ?NUMBER1) ?NUMBER2)\n (instance ?NUMBER1 RealNumber)\n (instance ?NUMBER2 RealNumber))\n (or\n (and\n (instance ?NUMBER1 NonnegativeRealNumber)\n (equal ?NUMBER1 ?NUMBER2))\n (and\n (instance ?NUMBER1 NegativeRealNumber)\n (equal ?NUMBER2 (SubtractionFn 0 ?NUMBER1)))))"))
([UAX-196] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 494)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (equal (CeilingFn ?NUMBER) ?INT)\n (not\n (exists (?OTHERINT)\n (and\n (instance ?OTHERINT Integer)\n (greaterThanOrEqualTo ?OTHERINT ?NUMBER)\n (lessThan ?OTHERINT ?INT)))))"))
([UAX-197] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 499)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (equal (FloorFn ?NUMBER) ?INT)\n (not\n (exists (?OTHERINT)\n (and\n (instance ?OTHERINT Integer)\n (lessThanOrEqualTo ?OTHERINT ?NUMBER)\n (greaterThan ?OTHERINT ?INT)))))"))
([UAX-198] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 501)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (equal (GreatestCommonDivisorFn @ROW) ?NUMBER)\n (forall (?ELEMENT)\n (=>\n (inList ?ELEMENT (ListFn @ROW))\n (equal (RemainderFn ?ELEMENT ?NUMBER) 0))))"))
([UAX-199] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 502)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (equal (GreatestCommonDivisorFn @ROW) ?NUMBER)\n (not (exists (?GREATER)\n (and\n (greaterThan ?GREATER ?NUMBER)\n (forall (?ELEMENT)\n (=>\n (inList ?ELEMENT (ListFn @ROW))\n (equal (RemainderFn ?ELEMENT ?GREATER) 0)))))))"))
([UAX-200] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 504)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER ComplexNumber)\n (exists (?PART1 ?PART2)\n (and\n (equal ?PART1 (RealNumberFn ?NUMBER))\n (equal ?PART2 (ImaginaryPartFn ?NUMBER)))))"))
([UAX-201] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 507)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (equal (LeastCommonMultipleFn @ROW) ?NUMBER)\n (forall (?ELEMENT)\n (=>\n (inList ?ELEMENT (ListFn @ROW))\n (equal (RemainderFn ?NUMBER ?ELEMENT) 0))))"))
([UAX-202] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 508)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (equal (LeastCommonMultipleFn @ROW) ?NUMBER)\n (not (exists (?LESS)\n (and\n (lessThan ?LESS ?NUMBER)\n (forall (?ELEMENT)\n (=>\n (inList ?ELEMENT (ListFn @ROW))\n (equal (RemainderFn ?LESS ?ELEMENT) 0)))))))"))
([UAX-203] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 511)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (equal (MaxFn ?NUMBER1 ?NUMBER2) ?NUMBER)\n (or\n (and\n (equal ?NUMBER ?NUMBER1)\n (greaterThan ?NUMBER1 ?NUMBER2))\n (and\n (equal ?NUMBER ?NUMBER2)\n (greaterThan ?NUMBER2 ?NUMBER1))\n (and\n (equal ?NUMBER ?NUMBER1)\n (equal ?NUMBER ?NUMBER2))))"))
([UAX-204] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 513)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (equal (MinFn ?NUMBER1 ?NUMBER2) ?NUMBER)\n (or\n (and\n (equal ?NUMBER ?NUMBER1)\n (lessThan ?NUMBER1 ?NUMBER2))\n (and\n (equal ?NUMBER ?NUMBER2)\n (lessThan ?NUMBER2 ?NUMBER1))\n (and\n (equal ?NUMBER ?NUMBER1)\n (equal ?NUMBER ?NUMBER2))))"))
([UAX-205] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 520)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER Quantity)\n (equal (ReciprocalFn ?NUMBER) (ExponentiationFn ?NUMBER -1)))"))
([UAX-206] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 521)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER Quantity)\n (equal 1 (MultiplicationFn ?NUMBER (ReciprocalFn ?NUMBER))))"))
([UAX-207] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 523)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(<=>\n (equal (RemainderFn ?NUMBER1 ?NUMBER2) ?NUMBER)\n (equal (AdditionFn (MultiplicationFn (FloorFn (DivisionFn ?NUMBER1 ?NUMBER2)) ?NUMBER2) ?NUMBER) ?NUMBER1))"))
([UAX-208] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 524)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (equal (RemainderFn ?NUMBER1 ?NUMBER2) ?NUMBER)\n (equal (SignumFn ?NUMBER2) (SignumFn ?NUMBER)))"))
([UAX-209] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 525)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER EvenInteger)\n (equal (RemainderFn ?NUMBER 2) 0))"))
([UAX-210] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 526)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER OddInteger)\n (equal (RemainderFn ?NUMBER 2) 1))"))
([UAX-211] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 527)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (instance ?PRIME PrimeNumber)\n (forall (?NUMBER)\n (=>\n (equal (RemainderFn ?PRIME ?NUMBER) 0)\n (or\n (equal ?NUMBER 1)\n (equal ?NUMBER ?PRIME)))))"))
([UAX-212] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 529)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (equal (RoundFn ?NUMBER1) ?NUMBER2)\n (or\n (=>\n (lessThan (SubtractionFn ?NUMBER1 (FloorFn ?NUMBER1)) 0.5)\n (equal ?NUMBER2 (FloorFn ?NUMBER1)))\n (=>\n (greaterThanOrEqualTo (SubtractionFn ?NUMBER1 (FloorFn ?NUMBER1)) 0.5)\n (equal ?NUMBER2 (CeilingFn ?NUMBER1)))))"))
([UAX-213] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 531)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER NonnegativeRealNumber)\n (or\n (equal (SignumFn ?NUMBER) 1)\n (equal (SignumFn ?NUMBER) 0)))"))
([UAX-214] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 532)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER PositiveRealNumber)\n (equal (SignumFn ?NUMBER) 1))"))
([UAX-215] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 533)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER NegativeRealNumber)\n (equal (SignumFn ?NUMBER) -1))"))
([UAX-216] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 536)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (equal (SquareRootFn ?NUMBER1) ?NUMBER2)\n (equal (MultiplicationFn ?NUMBER2 ?NUMBER2) ?NUMBER1))"))
([UAX-217] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 538)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (instance ?DEGREE PlaneAngleMeasure)\n (equal (TangentFn ?DEGREE) (DivisionFn (SineFn ?DEGREE) (CosineFn ?DEGREE))))"))
([UAX-218] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 540)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (identityElement ?FUNCTION ?ID)\n (forall (?INST)\n (=>\n (and\n (domain ?FUNCTION 1 ?CLASS)\n (instance ?INST ?CLASS))\n (equal (AssignmentFn ?FUNCTION ?ID ?INST) ?INST))))"))
([UAX-219] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 541)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(identityElement MultiplicationFn 1)"))
([UAX-220] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 542)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(identityElement AdditionFn 0)"))
([UAX-221] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 543)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(identityElement SubtractionFn 0)"))
([UAX-222] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 544)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(identityElement DivisionFn 1)"))
([UAX-223] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 546)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (equal (SuccessorFn ?INT1) (SuccessorFn ?INT2))\n (equal ?INT1 ?INT2))"))
([UAX-224] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 547)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (instance ?INT Integer)\n (lessThan ?INT (SuccessorFn ?INT)))"))
([UAX-225] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 548)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?INT1 Integer)\n (instance ?INT2 Integer))\n (not\n (and\n (lessThan ?INT1 ?INT2)\n (lessThan ?INT2 (SuccessorFn ?INT1)))))"))
([UAX-226] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 549)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (instance ?INT Integer)\n (equal ?INT (SuccessorFn (PredecessorFn ?INT))))"))
([UAX-227] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 550)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (instance ?INT Integer)\n (equal ?INT (PredecessorFn (SuccessorFn ?INT))))"))
([UAX-228] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 552)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (equal (PredecessorFn ?INT1) (PredecessorFn ?INT2))\n (equal ?INT1 ?INT2))"))
([UAX-229] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 553)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (instance ?INT Integer)\n (greaterThan ?INT (PredecessorFn ?INT)))"))
([UAX-230] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 554)
(%3AisInModule [NUMERIC_FUNCTIONS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?INT1 Integer)\n (instance ?INT2 Integer))\n (not\n (and\n (lessThan ?INT2 ?INT1)\n (lessThan (PredecessorFn ?INT1) ?INT2))))"))
([UAX-231] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 561)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3APAL-STATEMENT "(=>\n (subset ?SUBSET ?SET)\n (forall (?ELEMENT)\n (=>\n (element ?ELEMENT ?SUBSET)\n (element ?ELEMENT ?SET))))"))
([UAX-232] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 563)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3APAL-STATEMENT "(=>\n (forall (?ELEMENT)\n (<=>\n (element ?ELEMENT ?SET1)\n (element ?ELEMENT ?SET2)))\n (equal ?SET1 ?SET2))"))
([UAX-233] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 572)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3APAL-STATEMENT "(=>\n (instance ?SET NullSet)\n (not (exists (?INST) (instance ?INST ?SET))))"))
([UAX-234] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 574)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3APAL-STATEMENT "(=>\n (instance ?SET NonNullSet)\n (exists (?INST) (instance ?INST ?SET)))"))
([UAX-235] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 576)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3APAL-STATEMENT "(=>\n (instance ?SET FiniteSet)\n (exists (?NUMBER)\n (and\n (instance ?NUMBER NonnegativeInteger)\n (equal ?NUMBER (CardinalityFn ?SET)))))"))
([UAX-236] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 578)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3APAL-STATEMENT "(=>\n (instance ?SUPERCLASS PairwiseDisjointClass)\n (forall (?CLASS1 ?CLASS2)\n (=>\n (and\n (instance ?CLASS1 ?SUPERCLASS)\n (instance ?CLASS2 ?SUPERCLASS))\n (or\n (equal ?CLASS1 ?CLASS2)\n (disjoint ?CLASS1 ?CLASS2)))))"))
([UAX-237] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 580)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3APAL-STATEMENT "(=>\n (instance ?CLASS MutuallyDisjointClass)\n (forall (?INST1 ?INST2)\n (=>\n (and\n (instance ?INST1 ?CLASS)\n (instance ?INST2 ?INST1))\n (exists (?INST3)\n (and\n (instance ?INST3 ?CLASS)\n (not (instance ?INST2 ?INST3)))))))"))
([UAX-238] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 587)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?GRAPH Graph)\n (instance ?NODE1 GraphNode)\n (instance ?NODE2 GraphNode)\n (graphPart ?NODE1 ?GRAPH)\n (graphPart ?NODE2 ?GRAPH)\n (not (equal ?NODE1 ?NODE2)))\n (exists (?ARC ?PATH)\n (or\n (links ?NODE1 ?NODE2 ?ARC)\n (and\n (subGraph ?PATH ?GRAPH)\n (instance ?PATH GraphPath)\n (or\n (and\n (equal (BeginNodeFn ?PATH) ?NODE1)\n (equal (EndNodeFn ?PATH) ?NODE2))\n (and\n (equal (BeginNodeFn ?PATH) ?NODE2)\n (equal (EndNodeFn ?PATH) ?NODE1)))))))"))
([UAX-239] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 588)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(=>\n (instance ?GRAPH Graph)\n (exists (?NODE1 ?NODE2 ?NODE3 ?ARC1 ?ARC2)\n (and\n (graphPart ?NODE1 ?GRAPH)\n (graphPart ?NODE2 ?GRAPH)\n (graphPart ?NODE3 ?GRAPH)\n (graphPart ?ARC1 ?GRAPH)\n (graphPart ?ARC2 ?GRAPH)\n (links ?ARC1 ?NODE1 ?NODE2)\n (links ?ARC2 ?NODE2 ?NODE3)\n (not (equal ?NODE1 ?NODE2))\n (not (equal ?NODE2 ?NODE3))\n (not (equal ?NODE1 ?NODE3))\n (not (equal ?ARC1 ?ARC2)))))"))
([UAX-240] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 590)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?GRAPH DirectedGraph)\n (instance ?ARC GraphArc)\n (graphPart ?ARC ?GRAPH))\n (exists (?NODE1 ?NODE2)\n (and\n (equal (InitialNodeFn ?ARC) ?NODE1)\n (equal (TerminalNodeFn ?ARC) ?NODE2))))"))
([UAX-241] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 592)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(=>\n (instance ?GRAPH Tree)\n (not (exists (?LOOP)\n (and\n (instance ?LOOP GraphLoop)\n (graphPart ?LOOP ?GRAPH)))))"))
([UAX-242] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 594)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?GRAPH GraphPath)\n (instance ?ARC GraphArc)\n (graphPart ?ARC ?GRAPH))\n (=>\n (equal (InitialNodeFn ?ARC) ?NODE)\n (not (exists (?OTHER)\n (and\n (equal (InitialNodeFn ?OTHER) ?NODE)\n (not (equal ?OTHER ?ARC)))))))"))
([UAX-243] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 595)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?GRAPH GraphPath)\n (instance ?ARC GraphArc)\n (graphPart ?ARC ?GRAPH))\n (=>\n (equal (TerminalNodeFn ?ARC) ?NODE)\n (not (exists (?OTHER)\n (and\n (equal (TerminalNodeFn ?OTHER) ?NODE)\n (not (equal ?OTHER ?ARC)))))))"))
([UAX-244] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 597)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(<=>\n (instance ?GRAPH GraphCircuit)\n (exists (?NODE)\n (and\n (equal (BeginNodeFn ?GRAPH) ?NODE)\n (equal (EndNodeFn ?GRAPH) ?NODE))))"))
([UAX-245] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 599)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(<=>\n (instance ?GRAPH MultiGraph)\n (exists (?ARC1 ?ARC2 ?NODE1 ?NODE2)\n (and\n (graphPart ?ARC1 ?GRAPH)\n (graphPart ?ARC2 ?GRAPH)\n (graphPart ?NODE1 ?GRAPH)\n (graphPart ?NODE2 ?GRAPH)\n (links ?NODE1 ?NODE2 ?ARC1)\n (links ?NODE1 ?NODE2 ?ARC2)\n (not (equal ?ARC1 ?ARC2)))))"))
([UAX-246] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 601)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(<=>\n (instance ?GRAPH PseudoGraph)\n (exists (?LOOP)\n (and\n (instance ?LOOP GraphLoop)\n (graphPart ?LOOP ?GRAPH))))"))
([UAX-247] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 603)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(=>\n (instance ?PART GraphElement)\n (exists (?GRAPH)\n (and\n (instance ?GRAPH Graph)\n (graphPart ?PART ?GRAPH))))"))
([UAX-248] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 605)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(=>\n (instance ?NODE GraphNode)\n (exists (?OTHER ?ARC)\n (links ?NODE ?OTHER ?ARC)))"))
([UAX-249] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 607)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(=>\n (instance ?ARC GraphArc)\n (exists (?NODE1 ?NODE2)\n (links ?NODE1 ?NODE2 ?ARC)))"))
([UAX-250] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 609)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(<=>\n (instance ?LOOP GraphLoop)\n (exists (?NODE)\n (links ?NODE ?NODE ?LOOP)))"))
([UAX-251] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 610)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(=>\n (and\n (equal (InitialNodeFn ?ARC) ?NODE)\n (equal (TerminalNodeFn ?ARC) ?NODE))\n (instance ?ARC GraphLoop))"))
([UAX-252] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 612)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(=>\n (links ?NODE1 ?NODE2 ?ARC)\n (links ?NODE2 ?NODE1 ?ARC))"))
([UAX-253] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 615)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(=>\n (and\n (subGraph ?GRAPH1 ?GRAPH2)\n (graphPart ?ELEMENT ?GRAPH1))\n (graphPart ?ELEMENT ?GRAPH2))"))
([UAX-254] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 623)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(=>\n (and\n (equal (PathWeightFn ?PATH) ?SUM)\n (subGraph ?SUBPATH ?PATH)\n (graphPart ?ARC1 ?PATH)\n (arcWeight ?ARC1 ?NUMBER1)\n (forall (?ARC2)\n (=>\n (graphPart ?ARC2 ?PATH)\n (or\n (graphPart ?ARC2 ?SUBPATH)\n (equal ?ARC2 ?ARC1)))))\n (equal ?SUM (AdditionFn (PathWeightFn ?SUBPATH) ?NUMBER1)))"))
([UAX-255] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 624)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(=>\n (and\n (equal (PathWeightFn ?PATH) ?SUM)\n (graphPart ?ARC1 ?PATH)\n (graphPart ?ARC2 ?PATH)\n (arcWeight ?ARC1 ?NUMBER1)\n (arcWeight ?ARC2 ?NUMBER2)\n (forall (?ARC3)\n (=>\n (graphPart ?ARC3 ?PATH)\n (or\n (equal ?ARC3 ?ARC1)\n (equal ?ARC3 ?ARC2)))))\n (equal (PathWeightFn ?PATH) (AdditionFn ?NUMBER1 ?NUMBER2)))"))
([UAX-256] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 626)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(=>\n (equal (MinimalWeightedPathFn ?NODE1 ?NODE2) ?PATH)\n (instance ?PATH (GraphPathFn ?NODE1 ?NODE2)))"))
([UAX-257] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 627)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(=>\n (and\n (equal (MinimalWeightedPathFn ?NODE1 ?NODE2) ?PATH)\n (equal (PathWeightFn ?PATH) ?NUMBER))\n (forall (?PATH2)\n (=>\n (and\n (instance ?PATH2 (GraphPathFn ?NODE1 ?NODE2))\n (equal (PathWeightFn ?PATH2) ?NUMBER2))\n (greaterThanOrEqualTo ?NUMBER2 ?NUMBER1))))"))
([UAX-258] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 629)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(=>\n (equal (MaximalWeightedPathFn ?NODE1 ?NODE2) ?PATH)\n (instance ?PATH (GraphPathFn ?NODE1 ?NODE2)))"))
([UAX-259] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 630)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(=>\n (and\n (equal (MaximalWeightedPathFn ?NODE1 ?NODE2) ?PATH)\n (equal (PathWeightFn ?PATH) ?NUMBER))\n (forall (?PATH2)\n (=>\n (and\n (instance ?PATH2 (GraphPathFn ?NODE1 ?NODE2))\n (equal (PathWeightFn ?PATH2) ?NUMBER2))\n (lessThanOrEqualTo ?NUMBER2 ?NUMBER1))))"))
([UAX-260] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 632)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(=>\n (and\n (graphPart ?PATH ?GRAPH)\n (not (instance ?GRAPH DirectedGraph)))\n (<=>\n (equal (GraphPathFn ?NODE1 ?NODE2) ?PATH)\n (equal (GraphPathFn ?NODE2 ?NODE1) ?PATH)))"))
([UAX-261] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 635)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(=>\n (instance ?GRAPH Graph)\n (subclass (MinimalCutSetFn ?GRAPH) (CutSetFn ?GRAPH)))"))
([UAX-262] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 636)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(=>\n (equal (MinimalCutSetFn ?GRAPH) ?PATHCLASS)\n (exists (?NUMBER)\n (forall (?PATH)\n (=>\n (instance ?PATH ?PATHCLASS)\n (pathLength ?PATH ?NUMBER)))))"))
([UAX-263] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 637)
(%3AisInModule [GRAPH_THEORY])
(%3APAL-STATEMENT "(not (exists (?PATH1 ?PATH2)\n (and\n (instance ?PATH1 (CutSetFn ?GRAPH))\n (instance ?PATH2 (MinimalCutSetFn ?GRAPH))\n (pathLength ?PATH1 ?NUMBER1)\n (pathLength ?PATH2 ?NUMBER2)\n (lessThan ?NUMBER1 ?NUMBER2))))"))
([UAX-264] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 655)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (and\n (equal (MeasureFn ?NUMBER ?UNIT) ?QUANT)\n (subclass ?UNIT ?QUANTTYPE))\n (instance ?QUANT ?QUANTTYPE))"))
([UAX-265] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 656)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?REL RelationExtendedToQuantities)\n (instance ?REL TernaryRelation)\n (instance ?NUMBER1 RealNumber)\n (instance ?NUMBER2 RealNumber)\n (holds ?REL ?NUMBER1 ?NUMBER2 ?VALUE))\n (forall (?UNIT)\n (=>\n (instance ?UNIT UnitOfMeasure)\n (holds ?REL (MeasureFn ?NUMBER1 ?UNIT) (MeasureFn ?NUMBER2 ?UNIT) (MeasureFn ?VALUE ?UNIT)))))"))
([UAX-266] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 657)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?REL RelationExtendedToQuantities)\n (instance ?REL BinaryRelation)\n (instance ?NUMBER1 RealNumber)\n (instance ?NUMBER2 RealNumber)\n (holds ?REL ?NUMBER1 ?NUMBER2))\n (forall (?UNIT)\n (=>\n (instance ?UNIT UnitOfMeasure)\n (holds ?REL (MeasureFn ?NUMBER1 ?UNIT) (MeasureFn ?NUMBER2 ?UNIT)))))"))
([UAX-267] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 659)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?UNIT UnitOfMeasure)\n (equal (KiloFn ?UNIT) (MeasureFn 1000 ?UNIT)))"))
([UAX-268] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 661)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?UNIT UnitOfMeasure)\n (equal (MegaFn ?UNIT) (MeasureFn 1000000 ?UNIT)))"))
([UAX-269] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 663)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?UNIT UnitOfMeasure)\n (equal (GigaFn ?UNIT) (MeasureFn 1000000000 ?UNIT)))"))
([UAX-270] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 665)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?UNIT UnitOfMeasure)\n (equal (TeraFn ?UNIT) (MeasureFn 1000000000000 ?UNIT)))"))
([UAX-271] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 667)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?UNIT UnitOfMeasure)\n (equal (MilliFn ?UNIT) (MeasureFn 0.001 ?UNIT)))"))
([UAX-272] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 669)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?UNIT UnitOfMeasure)\n (equal (MicroFn ?UNIT) (MeasureFn 0.000001 ?UNIT)))"))
([UAX-273] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 671)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?UNIT UnitOfMeasure)\n (equal (NanoFn ?UNIT) (MeasureFn 0.000000001 ?UNIT)))"))
([UAX-274] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 673)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?UNIT UnitOfMeasure)\n (equal (PicoFn ?UNIT) (MeasureFn 0.000000000001 ?UNIT)))"))
([UAX-275] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 675)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(<=>\n (instance ?QUANTITY (IntervalFn ?FROM ?TO))\n (and\n (greaterThanOrEqualTo ?QUANTITY ?FROM)\n (lessThanOrEqualTo ?QUANTITY ?TO)))"))
([UAX-276] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 677)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?NUMBER RealNumber)\n (instance ?UNIT UnitOfMeasure))\n(equal (MagnitudeFn (MeasureFn ?NUMBER ?UNIT)) ?NUMBER))"))
([UAX-277] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 682)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (measure ?OBJECT (VelocityFn ?DISTANCE ?TIME ?REF ?DIRECTION))\n (measure ?OBJECT (SpeedFn ?DISTANCE ?TIME)))"))
([UAX-278] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 701)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER Centimeter)\n (MeasureFn (MultiplicationFn ?NUMBER 0.01) Meter)))"))
([UAX-279] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 736)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER CelsiusDegree)\n (MeasureFn (SubtractionFn ?NUMBER 273.15) KelvinDegree)))"))
([UAX-280] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 737)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER CelsiusDegree)\n (MeasureFn (DivisionFn (SubtractionFn ?NUMBER 32) 1.8) FahrenheitDegree)))"))
([UAX-281] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 750)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER DayDuration)\n (MeasureFn (MultiplicationFn ?NUMBER 24) HourDuration)))"))
([UAX-282] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 752)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER HourDuration)\n (MeasureFn (MultiplicationFn ?NUMBER 60) MinuteDuration)))"))
([UAX-283] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 754)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER MinuteDuration)\n (MeasureFn (MultiplicationFn ?NUMBER 60) SecondDuration)))"))
([UAX-284] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 756)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER WeekDuration)\n (MeasureFn (MultiplicationFn ?NUMBER 7) DayDuration)))"))
([UAX-285] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 758)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER YearDuration)\n (MeasureFn (MultiplicationFn ?NUMBER 365) DayDuration)))"))
([UAX-286] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 761)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER Amu)\n (MeasureFn (MultiplicationFn ?NUMBER 1.6605402E-24) Gram)))"))
([UAX-287] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 763)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER ElectronVolt)\n (MeasureFn (MultiplicationFn ?NUMBER 1.60217733E-19) Joule)))"))
([UAX-288] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 766)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER Angstrom)\n (MeasureFn (MultiplicationFn ?NUMBER 1.0E-10) Meter)))"))
([UAX-289] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 770)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER FootLength)\n (MeasureFn (MultiplicationFn ?NUMBER 0.3048) Meter)))"))
([UAX-290] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 772)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER Inch)\n (MeasureFn (MultiplicationFn ?NUMBER 0.0254) Meter)))"))
([UAX-291] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 774)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER Mile)\n (MeasureFn (MultiplicationFn ?NUMBER 1609.344) Meter)))"))
([UAX-292] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 777)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER UnitedStatesGallon)\n (MeasureFn (MultiplicationFn ?NUMBER 3.785411784) Liter)))"))
([UAX-293] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 779)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER Quart)\n (MeasureFn (DivisionFn ?NUMBER 4) UnitedStatesGallon)))"))
([UAX-294] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 781)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER Pint)\n (MeasureFn (DivisionFn ?NUMBER 2) Quart)))"))
([UAX-295] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 783)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER Cup)\n (MeasureFn (DivisionFn ?NUMBER 2) Pint)))"))
([UAX-296] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 785)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER Ounce)\n (MeasureFn (DivisionFn ?NUMBER 8) Cup)))"))
([UAX-297] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 787)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER UnitedKingdomGallon)\n (MeasureFn (MultiplicationFn ?NUMBER 4.54609) Liter)))"))
([UAX-298] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 791)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER PoundMass)\n (MeasureFn (MultiplicationFn ?NUMBER 453.59237) Gram)))"))
([UAX-299] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 793)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER Slug)\n (MeasureFn (MultiplicationFn ?NUMBER 14593.90) Gram)))"))
([UAX-300] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 796)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER RankineDegree)\n (MeasureFn (MultiplicationFn ?NUMBER 1.8) KelvinDegree)))"))
([UAX-301] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 800)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER PoundForce)\n (MeasureFn (MultiplicationFn ?NUMBER 4.448222) Newton)))"))
([UAX-302] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 803)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER Calorie)\n (MeasureFn (MultiplicationFn ?NUMBER 4.1868) Joule)))"))
([UAX-303] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 805)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER BritishThermalUnit)\n (MeasureFn (MultiplicationFn ?NUMBER 1055.05585262) Joule)))"))
([UAX-304] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 808)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER AngularDegree)\n (MeasureFn (MultiplicationFn ?NUMBER (DivisionFn Pi 180)) Radian)))"))
([UAX-305] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 809)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (measure ?ANGLE (MeasureFn ?NUMBER AngularDegree))\n (and\n (greaterThanOrEqualTo ?NUMBER 0)\n (lessThanOrEqualTo ?NUMBER 360)))"))
([UAX-306] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 810)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(equal (MeasureFn 0 AngularDegree) (MeasureFn 360 AngularDegree))"))
([UAX-307] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 815)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER UnitedStatesCent)\n (MeasureFn (MultiplicationFn ?NUMBER 0.01) UnitedStatesDollar)))"))
([UAX-308] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 818)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER EuroCent)\n (MeasureFn (MultiplicationFn ?NUMBER 0.01) EuroDollar)))"))
([UAX-309] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 823)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER Byte)\n (MeasureFn (MultiplicationFn ?NUMBER 8) Bit)))"))
([UAX-310] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 825)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER KiloByte)\n (MeasureFn (MultiplicationFn ?NUMBER 1024) Byte)))"))
([UAX-311] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 827)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (instance ?NUMBER RealNumber)\n (equal\n (MeasureFn ?NUMBER MegaByte)\n (MeasureFn (MultiplicationFn ?NUMBER 1024) KiloByte)))"))
([UAX-312] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 835)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (distance ?OBJ1 ?OBJ2 ?QUANT)\n (distance ?OBJ2 ?OBJ1 ?QUANT))"))
([UAX-313] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 837)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (altitude ?OBJ1 ?OBJ2 ?HEIGHT)\n (orientation ?OBJ1 ?OBJ2 Above))"))
([UAX-314] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 838)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (altitude ?OBJ1 ?OBJ2 ?HEIGHT)\n (exists (?TOP)\n (and\n (top ?TOP ?OBJ1)\n (distance ?TOP ?OBJ2 ?HEIGHT))))"))
([UAX-315] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 840)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (depth ?OBJ1 ?OBJ2 ?DEPTH)\n (orientation ?OBJ1 ?OBJ2 Below))"))
([UAX-316] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 841)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (depth ?OBJ1 ?OBJ2 ?DEPTH)\n (exists (?BOTTOM)\n (and\n (bottom ?BOTTOM ?OBJ1)\n (distance ?BOTTOM ?OBJ2 ?DEPTH))))"))
([UAX-317] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 843)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(=>\n (larger ?OBJ1 ?OBJ2)\n (forall (?QUANT1 ?QUANT2)\n (=>\n (and\n (measure ?OBJ1 (MeasureFn ?QUANT1 LengthMeasure))\n (measure ?OBJ2 (MeasureFn ?QUANT2 LengthMeasure)))\n (greaterThan ?QUANT1 ?QUANT2))))"))
([UAX-318] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 847)
(%3AisInModule [UNITS_OF_MEASURE])
(%3APAL-STATEMENT "(<=>\n (equal (WealthFn ?PERSON) ?AMOUNT)\n (monetaryValue (PropertyFn ?PERSON) ?AMOUNT))"))
([UAX-319] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 854)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?POINT TimePoint)\n (not (equal ?POINT PositiveInfinity)))\n (before ?POINT PositiveInfinity))"))
([UAX-320] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 855)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?POINT TimePoint)\n (not (equal ?POINT PositiveInfinity)))\n (exists (?OTHERPOINT)\n (temporallyBetween ?POINT ?OTHERPOINT PositiveInfinity)))"))
([UAX-321] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 857)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?POINT TimePoint)\n (not (equal ?POINT NegativeInfinity)))\n (before NegativeInfinity ?POINT))"))
([UAX-322] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 858)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?POINT TimePoint)\n (not (equal ?POINT NegativeInfinity)))\n (exists (?OTHERPOINT)\n (temporallyBetween NegativeInfinity ?OTHERPOINT ?POINT)))"))
([UAX-323] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 861)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (frequency ?PROC ?TIME1)\n (forall (?TIME2)\n (=>\n (duration ?TIME2 ?TIME1)\n (exists (?POSITION)\n (and\n (temporalPart ?POSITION ?TIME2)\n (holdsDuring ?POSITION (exists (?INST) (instance ?INST ?PROC))))))))"))
([UAX-324] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 863)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?POINT TimePoint)\n (exists (?INTERVAL)\n (and\n (instance ?INTERVAL TimeInterval)\n (temporalPart ?POINT ?INTERVAL))))"))
([UAX-325] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 864)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?INTERVAL TimeInterval)\n (exists (?POINT)\n (and\n (instance ?POINT TimePoint)\n (temporalPart ?POINT ?INTERVAL))))"))
([UAX-326] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 865)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (holdsDuring ?TIME1 ?SITUATION)\n (temporalPart ?TIME2 ?TIME1))\n (holdsDuring ?TIME2 ?SITUATION))"))
([UAX-327] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 866)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (holdsDuring ?INTERVAL (holds ?REL ?INST1 ?INST2))\n (instance ?INST1 Physical)\n (instance ?INST2 Physical))\n (and\n (time ?INST1 ?INTERVAL)\n (time ?INST2 ?INTERVAL)))"))
([UAX-328] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 867)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(<=>\n (temporalPart ?POS (WhenFn ?THING))\n (time ?THING ?POS))"))
([UAX-329] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 869)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (origin ?PROCESS ?OBJ)\n (located (WhereFn ?PROCESS (BeginFn (WhenFn ?PROCESS))) (WhereFn ?OBJ (BeginFn (WhenFn ?OBJ)))))"))
([UAX-330] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 870)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (equal (BeginFn ?INTERVAL) ?POINT)\n (forall (?OTHERPOINT)\n (=>\n (and\n (temporalPart ?OTHERPOINT ?INTERVAL)\n (not (equal ?OTHERPOINT ?POINT)))\n (before ?POINT ?OTHERPOINT))))"))
([UAX-331] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 872)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (equal (EndFn ?INTERVAL) ?POINT)\n (forall (?OTHERPOINT)\n (=>\n (and\n (temporalPart ?OTHERPOINT ?INTERVAL)\n (not (equal ?OTHERPOINT ?POINT)))\n (before ?OTHERPOINT ?POINT))))"))
([UAX-332] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 873)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (resource ?PROC ?OBJ)\n (holdsDuring (BeginFn (WhenFn ?PROC)) (measure ?OBJ ?QUANT1))\n (holdsDuring (EndFn (WhenFn ?PROC)) (measure ?OBJ ?QUANT2)))\n (greaterThan ?QUANT1 ?QUANT2))"))
([UAX-333] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 875)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(<=>\n (starts ?INTERVAL1 ?INTERVAL2)\n (and\n (equal\n (BeginFn ?INTERVAL1)\n (BeginFn ?INTERVAL2))\n (before\n (EndFn ?INTERVAL1)\n (EndFn ?INTERVAL2))))"))
([UAX-334] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 877)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(<=>\n (finishes ?INTERVAL1 ?INTERVAL2)\n (and\n (before\n (BeginFn ?INTERVAL2)\n (BeginFn ?INTERVAL1))\n (equal\n (EndFn ?INTERVAL2)\n (EndFn ?INTERVAL1))))"))
([UAX-335] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 880)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?OBJ Object)\n (exists (?TIME1 ?TIME2)\n (and\n (instance ?TIME1 TimePoint)\n (instance ?TIME2 TimePoint)\n (before ?TIME1 ?TIME2)\n (forall (?TIME)\n (=>\n (and\n (beforeOrEqual ?TIME1 ?TIME)\n (beforeOrEqual ?TIME ?TIME2))\n (time ?OBJ ?TIME))))))"))
([UAX-336] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 881)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (result ?PROC ?OBJ)\n (forall (?TIME)\n (=>\n (before ?TIME (BeginFn (WhenFn ?PROC)))\n (not\n (time ?OBJ ?TIME)))))"))
([UAX-337] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 882)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?INTERVAL TimeInterval)\n (before (BeginFn ?INTERVAL) (EndFn ?INTERVAL)))"))
([UAX-338] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 884)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (beforeOrEqual ?POINT1 ?POINT2)\n (or\n (before ?POINT1 ?POINT2)\n (equal ?POINT1 ?POINT2)))"))
([UAX-339] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 886)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(<=>\n (temporallyBetween ?POINT1 ?POINT2 ?POINT3)\n (and\n (before ?POINT1 ?POINT2)\n (before ?POINT2 ?POINT3)))"))
([UAX-340] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 888)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(<=>\n (temporallyBetweenOrEqual ?POINT1 ?POINT2 ?POINT3)\n (and\n (beforeOrEqual ?POINT1 ?POINT2)\n (beforeOrEqual ?POINT2 ?POINT3)))"))
([UAX-341] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 889)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(<=>\n (and\n (time ?PHYS ?TIME)\n (instance ?TIME TimePoint))\n (temporallyBetweenOrEqual (BeginFn (WhenFn ?PHYS)) ?TIME (EndFn (WhenFn ?PHYS))))"))
([UAX-342] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 891)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(<=>\n (overlapsTemporally ?INTERVAL1 ?INTERVAL2)\n (exists (?INTERVAL3)\n (and\n (instance ?INTERVAL3 TimeInterval)\n (temporalPart ?INTERVAL3 ?INTERVAL1)\n (temporalPart ?INTERVAL3 ?INTERVAL2))))"))
([UAX-343] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 892)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?REL SpatialRelation)\n (holds ?REL ?OBJ1 ?OBJ2))\n (overlapsTemporally (WhenFn ?OBJ1) (WhenFn ?OBJ2)))"))
([UAX-344] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 894)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (during ?INTERVAL1 ?INTERVAL2)\n (and\n (before (EndFn ?INTERVAL1) (EndFn ?INTERVAL2))\n (before (BeginFn ?INTERVAL2) (BeginFn ?INTERVAL1))))"))
([UAX-345] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 896)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(<=>\n (meetsTemporally ?INTERVAL1 ?INTERVAL2)\n (equal\n (EndFn ?INTERVAL1)\n (BeginFn ?INTERVAL2)))"))
([UAX-346] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 897)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (equal\n (BeginFn ?INTERVAL1)\n (BeginFn ?INTERVAL2))\n (equal\n (EndFn ?INTERVAL1)\n (EndFn ?INTERVAL2)))\n (equal ?INTERVAL1 ?INTERVAL2))"))
([UAX-347] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 899)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(<=>\n (earlier ?INTERVAL1 ?INTERVAL2)\n (before (EndFn ?INTERVAL1) (BeginFn ?INTERVAL2)))"))
([UAX-348] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 901)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(<=>\n (cooccur ?PHYS1 ?PHYS2)\n (equal (WhenFn ?PHYS1) (WhenFn ?PHYS2)))"))
([UAX-349] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 904)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?POINT1 TimePoint)\n (instance ?POINT2 TimePoint)\n (instance ?INTERVAL TimeInterval)\n (equal (TimeIntervalFn ?POINT1 ?POINT2) ?INTERVAL))\n (and\n (equal (BeginFn ?INTERVAL) ?POINT1)\n (equal (EndFn ?INTERVAL) ?POINT2)))"))
([UAX-350] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 905)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?POINT1 TimePoint)\n (instance ?POINT2 TimePoint)\n (instance ?INTERVAL TimeInterval)\n (equal (TimeIntervalFn ?POINT1 ?POINT2) ?INTERVAL))\n (forall (?POINT)\n (<=>\n (temporallyBetweenOrEqual ?POINT1 ?POINT ?POINT2)\n (temporalPart ?POINT ?INTERVAL))))"))
([UAX-351] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 907)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?INTERVAL (RecurrentTimeIntervalFn ?TIMECLASS1 ?TIMECLASS2))\n (exists (?TIME1 ?TIME2)\n (and\n (instance ?TIME1 ?TIMECLASS1)\n (instance ?TIME2 ?TIMECLASS2)\n (starts ?TIME1 ?INTERVAL)\n (finishes ?TIME2 ?INTERVAL))))"))
([UAX-352] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 910)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?INTERVAL TimeInterval)\n (meetsTemporally (PastFn ?INTERVAL) ?INTERVAL))"))
([UAX-353] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 911)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?INTERVAL TimeInterval)\n (equal (PastFn ?INTERVAL) (TimeIntervalFn NegativeInfinity (BeginFn ?INTERVAL))))"))
([UAX-354] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 913)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?INTERVAL TimeInterval)\n (finishes (ImmediatePastFn ?INTERVAL) (PastFn ?INTERVAL)))"))
([UAX-355] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 915)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?INTERVAL TimeInterval)\n (meetsTemporally ?INTERVAL (FutureFn ?INTERVAL)))"))
([UAX-356] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 916)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?INTERVAL TimeInterval)\n (equal (FutureFn ?INTERVAL) (TimeIntervalFn (EndFn ?INTERVAL) PositiveInfinity)))"))
([UAX-357] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 918)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?INTERVAL TimeInterval)\n (starts (ImmediateFutureFn ?INTERVAL) (FutureFn ?INTERVAL)))"))
([UAX-358] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 924)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?DAY (DayFn ?NUMBER ?MONTH))\n (lessThanOrEqualTo ?NUMBER 31))"))
([UAX-359] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 925)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DAY1 (DayFn ?NUMBER1 ?MONTH))\n (instance ?DAY2 (DayFn ?NUMBER2 ?MONTH))\n (equal (SubtractionFn ?NUMBER2 ?NUMBER1) 1))\n (meetsTemporally ?DAY1 ?DAY2))"))
([UAX-360] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 927)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?HOUR (HourFn ?NUMBER ?DAY))\n (lessThan ?NUMBER 24))"))
([UAX-361] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 928)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?HOUR1 (HourFn ?NUMBER1 ?DAY))\n (instance ?HOUR2 (HourFn ?NUMBER2 ?DAY))\n (equal (SubtractionFn ?NUMBER2 ?NUMBER1) 1))\n (meetsTemporally ?HOUR1 ?HOUR2))"))
([UAX-362] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 930)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?MINUTE (MinuteFn ?NUMBER ?HOUR))\n (lessThan ?NUMBER 60))"))
([UAX-363] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 931)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?MINUTE1 (MinuteFn ?NUMBER1 ?HOUR))\n (instance ?MINUTE2 (MinuteFn ?NUMBER2 ?HOUR))\n (equal (SubtractionFn ?NUMBER2 ?NUMBER1) 1))\n (meetsTemporally ?MINUTE1 ?MINUTE2))"))
([UAX-364] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 933)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?SECOND (SecondFn ?NUMBER ?MINUTE))\n (lessThan ?NUMBER 60))"))
([UAX-365] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 934)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?SECOND1 (SecondFn ?NUMBER1 ?MINUTE))\n (instance ?SECOND2 (SecondFn ?NUMBER2 ?MINUTE))\n (equal (SubtractionFn ?NUMBER2 ?NUMBER1) 1))\n (meetsTemporally ?SECOND1 ?SECOND2))"))
([UAX-366] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 936)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?YEAR Year)\n (duration ?YEAR (MeasureFn 1 YearDuration)))"))
([UAX-367] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 937)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?YEAR1 Year)\n (instance ?YEAR2 Year)\n (equal (SubtractionFn ?YEAR2 ?YEAR1) 1))\n (meetsTemporally ?YEAR1 ?YEAR2))"))
([UAX-368] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 939)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?LEAP LeapYear)\n (equal ?LEAP (MeasureFn ?NUMBER Year)))\n (or\n (and\n (equal (RemainderFn ?NUMBER 4) 0)\n (not (equal (RemainderFn ?NUMBER 100) 0)))\n (equal (RemainderFn ?NUMBER 400) 0)))"))
([UAX-369] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 942)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?MONTH January)\n (duration ?MONTH (MeasureFn 31 DayDuration)))"))
([UAX-370] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 943)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (equal ?MONTH1 (MonthFn January ?YEAR))\n (equal ?MONTH2 (MonthFn February ?YEAR)))\n (meetsTemporally ?MONTH1 ?MONTH2))"))
([UAX-371] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 945)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (equal (MonthFn February ?YEAR) ?MONTH)\n (not (instance ?YEAR LeapYear)))\n (duration ?MONTH (MeasureFn 28 DayDuration)))"))
([UAX-372] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 946)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (equal (MonthFn February ?YEAR) ?MONTH)\n (instance ?YEAR LeapYear))\n (duration ?MONTH (MeasureFn 29 DayDuration)))"))
([UAX-373] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 947)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (equal ?MONTH1 (MonthFn February ?YEAR))\n (equal ?MONTH2 (MonthFn March ?YEAR)))\n (meetsTemporally ?MONTH1 ?MONTH2))"))
([UAX-374] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 949)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?MONTH March)\n (duration ?MONTH (MeasureFn 31 DayDuration)))"))
([UAX-375] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 950)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (equal ?MONTH1 (MonthFn March ?YEAR))\n (equal ?MONTH2 (MonthFn April ?YEAR)))\n (meetsTemporally ?MONTH1 ?MONTH2))"))
([UAX-376] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 952)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?MONTH April)\n (duration ?MONTH (MeasureFn 30 DayDuration)))"))
([UAX-377] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 953)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (equal ?MONTH1 (MonthFn April ?YEAR))\n (equal ?MONTH2 (MonthFn May ?YEAR)))\n (meetsTemporally ?MONTH1 ?MONTH2))"))
([UAX-378] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 955)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?MONTH May)\n (duration ?MONTH (MeasureFn 31 DayDuration)))"))
([UAX-379] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 956)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (equal ?MONTH1 (MonthFn May ?YEAR))\n (equal ?MONTH2 (MonthFn June ?YEAR)))\n (meetsTemporally ?MONTH1 ?MONTH2))"))
([UAX-380] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 958)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?MONTH June)\n (duration ?MONTH (MeasureFn 30 DayDuration)))"))
([UAX-381] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 959)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (equal ?MONTH1 (MonthFn June ?YEAR))\n (equal ?MONTH2 (MonthFn July ?YEAR)))\n (meetsTemporally ?MONTH1 ?MONTH2))"))
([UAX-382] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 961)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?MONTH July)\n (duration ?MONTH (MeasureFn 31 DayDuration)))"))
([UAX-383] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 962)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (equal ?MONTH1 (MonthFn July ?YEAR))\n (equal ?MONTH2 (MonthFn August ?YEAR)))\n (meetsTemporally ?MONTH1 ?MONTH2))"))
([UAX-384] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 964)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?MONTH August)\n (duration ?MONTH (MeasureFn 31 DayDuration)))"))
([UAX-385] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 965)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (equal ?MONTH1 (MonthFn August ?YEAR))\n (equal ?MONTH2 (MonthFn September ?YEAR)))\n (meetsTemporally ?MONTH1 ?MONTH2))"))
([UAX-386] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 967)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?MONTH September)\n (duration ?MONTH (MeasureFn 30 DayDuration)))"))
([UAX-387] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 968)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (equal ?MONTH1 (MonthFn September ?YEAR))\n (equal ?MONTH2 (MonthFn October ?YEAR)))\n (meetsTemporally ?MONTH1 ?MONTH2))"))
([UAX-388] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 970)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?MONTH October)\n (duration ?MONTH (MeasureFn 31 DayDuration)))"))
([UAX-389] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 971)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (equal ?MONTH1 (MonthFn October ?YEAR))\n (equal ?MONTH2 (MonthFn November ?YEAR)))\n (meetsTemporally ?MONTH1 ?MONTH2))"))
([UAX-390] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 973)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?MONTH November)\n (duration ?MONTH (MeasureFn 30 DayDuration)))"))
([UAX-391] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 974)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (equal ?MONTH1 (MonthFn November ?YEAR))\n (equal ?MONTH2 (MonthFn December ?YEAR)))\n (meetsTemporally ?MONTH1 ?MONTH2))"))
([UAX-392] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 976)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?MONTH December)\n (duration ?MONTH (MeasureFn 31 DayDuration)))"))
([UAX-393] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 977)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (equal ?MONTH1 (MonthFn December ?YEAR1))\n (equal ?MONTH2 (MonthFn January ?YEAR2))\n (meetsTemporally ?YEAR1 ?YEAR2))\n (meetsTemporally ?MONTH1 ?MONTH2))"))
([UAX-394] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 979)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?DAY Day)\n (duration ?DAY (MeasureFn 1 DayDuration)))"))
([UAX-395] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 982)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DAY1 Monday)\n (instance ?DAY2 Tuesday)\n (instance ?WEEK Week)\n (temporalPart ?DAY1 ?WEEK)\n (temporalPart ?DAY2 ?WEEK))\n (meetsTemporally ?DAY1 ?DAY2))"))
([UAX-396] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 984)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DAY1 Tuesday)\n (instance ?DAY2 Wednesday)\n (instance ?WEEK Week)\n (temporalPart ?DAY1 ?WEEK)\n (temporalPart ?DAY2 ?WEEK))\n (meetsTemporally ?DAY1 ?DAY2))"))
([UAX-397] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 986)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DAY1 Wednesday)\n (instance ?DAY2 Thursday)\n (instance ?WEEK Week)\n (temporalPart ?DAY1 ?WEEK)\n (temporalPart ?DAY2 ?WEEK))\n (meetsTemporally ?DAY1 ?DAY2))"))
([UAX-398] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 988)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DAY1 Thursday)\n (instance ?DAY2 Friday)\n (instance ?WEEK Week)\n (temporalPart ?DAY1 ?WEEK)\n (temporalPart ?DAY2 ?WEEK))\n (meetsTemporally ?DAY1 ?DAY2))"))
([UAX-399] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 990)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DAY1 Friday)\n (instance ?DAY2 Saturday)\n (instance ?WEEK Week)\n (temporalPart ?DAY1 ?WEEK)\n (temporalPart ?DAY2 ?WEEK))\n (meetsTemporally ?DAY1 ?DAY2))"))
([UAX-400] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 992)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DAY1 Saturday)\n (instance ?DAY2 Sunday)\n (instance ?WEEK Week)\n (temporalPart ?DAY1 ?WEEK)\n (temporalPart ?DAY2 ?WEEK))\n (meetsTemporally ?DAY1 ?DAY2))"))
([UAX-401] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 993)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DAY1 Sunday)\n (instance ?DAY2 Monday)\n (instance ?WEEK1 Week)\n (instance ?WEEK2 Week)\n (temporalPart ?DAY1 ?WEEK1)\n (temporalPart ?DAY2 ?WEEK2)\n (meetsTemporally ?WEEK1 ?WEEK2))\n (meetsTemporally ?DAY1 ?DAY2))"))
([UAX-402] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 995)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?WEEK Week)\n (duration ?WEEK (MeasureFn 1 WeekDuration)))"))
([UAX-403] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 997)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?HOUR Hour)\n (duration ?HOUR (MeasureFn 1 HourDuration)))"))
([UAX-404] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 999)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?MINUTE Minute)\n (duration ?MINUTE (MeasureFn 1 MinuteDuration)))"))
([UAX-405] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1001)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?SECOND Second)\n (duration ?SECOND (MeasureFn 1 SecondDuration)))"))
([UAX-406] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1003)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (equal (TemporalCompositionFn ?INTERVAL ?INTERVAL-TYPE) ?CLASS)\n (forall (?TIME1 ?TIME2)\n (=>\n (and\n (instance ?TIME1 ?INTERVAL-TYPE)\n (instance ?TIME2 ?CLASS))\n (exists (?DURATION)\n (and\n (duration ?TIME1 ?DURATION)\n (duration ?TIME2 ?DURATION))))))"))
([UAX-407] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1004)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (equal (TemporalCompositionFn ?INTERVAL ?INTERVAL-TYPE) ?CLASS)\n (forall (?TIME1 ?TIME2)\n (=>\n (and\n (instance ?TIME1 ?CLASS)\n (instance ?TIME2 ?CLASS)\n (not (equal ?TIME1 ?TIME2)))\n (or\n (meetsTemporally ?TIME1 ?TIME2)\n (meetsTemporally ?TIME2 ?TIME1)\n (earlier ?TIME1 ?TIME2)\n (earlier ?TIME2 ?TIME1)))))"))
([UAX-408] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1005)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (equal (TemporalCompositionFn ?INTERVAL ?INTERVAL-TYPE) ?CLASS)\n (exists (?TIME)\n (and\n (instance ?TIME ?CLASS)\n (starts ?TIME ?INTERVAL))))"))
([UAX-409] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1006)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (equal (TemporalCompositionFn ?INTERVAL ?INTERVAL-TYPE) ?CLASS)\n (exists (?TIME)\n (and\n (instance ?TIME ?CLASS)\n (finishes ?TIME ?INTERVAL))))"))
([UAX-410] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1007)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (equal (TemporalCompositionFn ?INTERVAL ?INTERVAL-TYPE) ?CLASS)\n (forall (?TIME1)\n (=>\n (and\n (instance ?TIME1 ?CLASS)\n (not (finishes ?TIME1 ?INTERVAL)))\n (exists (?TIME2)\n (and\n (instance ?TIME2 ?CLASS)\n (meetsTemporally ?TIME1 ?TIME2))))))"))
([UAX-411] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1008)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (equal (TemporalCompositionFn ?INTERVAL ?INTERVAL-TYPE) ?CLASS)\n (forall (?TIME1)\n (=>\n (and\n (instance ?TIME1 ?CLASS)\n (not (starts ?TIME1 ?INTERVAL)))\n (exists (?TIME2)\n (and\n (instance ?TIME2 ?CLASS)\n (meetsTemporally ?TIME2 ?TIME1))))))"))
([UAX-412] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1009)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (equal (TemporalCompositionFn ?INTERVAL ?INTERVAL-TYPE) ?CLASS)\n (forall (?TIME)\n (=>\n (and\n (instance ?TIME TimePoint)\n (temporalPart ?TIME ?INTERVAL))\n (exists (?INSTANCE)\n (and\n (instance ?INSTANCE ?CLASS)\n (temporalPart ?TIME ?INSTANCE))))))"))
([UAX-413] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1010)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?YEAR Year)\n (equal (CardinalityFn (TemporalCompositionFn ?YEAR Month)) 12))"))
([UAX-414] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1011)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?MONTH Month)\n (duration ?MONTH (MeasureFn ?NUMBER DayDuration)))\n (equal (CardinalityFn (TemporalCompositionFn ?MONTH Day)) ?NUMBER))"))
([UAX-415] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1012)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?WEEK Week)\n (equal (CardinalityFn (TemporalCompositionFn ?WEEK Day)) 7))"))
([UAX-416] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1013)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?DAY Day)\n (equal (CardinalityFn (TemporalCompositionFn ?DAY Hour)) 24))"))
([UAX-417] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1014)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?HOUR Hour)\n (equal (CardinalityFn (TemporalCompositionFn ?HOUR Minute)) 60))"))
([UAX-418] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1015)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3APAL-STATEMENT "(=>\n (instance ?MINUTE Minute)\n (equal (CardinalityFn (TemporalCompositionFn ?MINUTE Second)) 60))"))
([UAX-419] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1022)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (connected ?OBJ1 ?OBJ2)\n (or\n (meetsSpatially ?OBJ1 ?OBJ2)\n (overlapsSpatially ?OBJ1 ?OBJ2)))"))
([UAX-420] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1023)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(<=>\n (instance ?OBJ SelfConnectedObject)\n (forall (?PART1 ?PART2)\n (=>\n (equal ?OBJ (MereologicalSumFn ?PART1 ?PART2))\n (connected ?PART1 ?PART2))))"))
([UAX-421] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1025)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(<=>\n (connects ?OBJ1 ?OBJ2 ?OBJ3)\n (and\n (connected ?OBJ1 ?OBJ2)\n (connected ?OBJ1 ?OBJ3)\n (not\n (connected ?OBJ2 ?OBJ3))))"))
([UAX-422] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1028)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(<=>\n (overlapsSpatially ?OBJ1 ?OBJ2)\n (exists (?OBJ3)\n (and\n (part ?OBJ3 ?OBJ1)\n (part ?OBJ3 ?OBJ2))))"))
([UAX-423] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1029)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (member ?OBJ1 ?COLL)\n (member ?OBJ2 ?COLL)\n (not (equal ?OBJ1 ?OBJ2)))\n (not\n (overlapsSpatially ?OBJ1 ?OBJ2)))"))
([UAX-424] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1030)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?REL CaseRole)\n (instance ?OBJ Object)\n (holds ?REL ?PROCESS ?OBJ))\n (exists (?TIME)\n (overlapsSpatially (WhereFn ?PROCESS ?TIME) ?OBJ)))"))
([UAX-425] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1032)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(<=>\n (overlapsPartially ?OBJ1 ?OBJ2)\n (and\n (not (part ?OBJ1 ?OBJ2))\n (not (part ?OBJ2 ?OBJ1))\n (exists (?OBJ3)\n (and\n (part ?OBJ3 ?OBJ1)\n (part ?OBJ3 ?OBJ2)))))"))
([UAX-426] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1034)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (superficialPart ?OBJ1 ?OBJ2)\n (and\n (not\n (interiorPart ?OBJ1 ?OBJ2))\n (not\n (exists (?OBJ3)\n (interiorPart ?OBJ3 ?OBJ1)))))"))
([UAX-427] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1036)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (surface ?OBJ1 ?OBJ2)\n (forall (?OBJ3)\n (=>\n (superficialPart ?OBJ3 ?OBJ2)\n (part ?OBJ3 ?OBJ1))))"))
([UAX-428] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1038)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (interiorPart ?OBJ1 ?OBJ2)\n (forall (?PART)\n (=>\n (superficialPart ?PART ?OBJ2)\n (not\n (overlapsSpatially ?OBJ1 ?PART)))))"))
([UAX-429] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1040)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (bottom ?BOTTOM ?OBJECT)\n (part ?PART ?OBJECT)\n (not (connected ?PART ?BOTTOM)))\n (orientation ?PART ?BOTTOM Above))"))
([UAX-430] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1042)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (top ?TOP ?OBJECT)\n (part ?PART ?OBJECT)\n (not (connected ?PART ?TOP)))\n (orientation ?PART ?TOP Below))"))
([UAX-431] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1044)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (side ?SIDE ?OBJECT)\n (part ?PART ?OBJECT)\n (not (connected ?PART ?SIDE)))\n (exists (?DIRECT)\n (orientation ?SIDE ?PART ?DIRECT)))"))
([UAX-432] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1045)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(<=>\n (width ?OBJECT ?WIDTH)\n (exists (?SIDE1 ?SIDE2)\n (and\n (side ?SIDE1 ?OBJECT)\n (side ?SIDE2 ?OBJECT)\n (distance ?SIDE1 ?SIDE2 ?WIDTH))))"))
([UAX-433] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1047)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (height ?OBJECT ?HEIGHT)\n (top ?TOP ?OBJECT)\n (bottom ?BOTTOM ?OBJECT))\n (distance ?TOP ?BOTTOM ?HEIGHT))"))
([UAX-434] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1049)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (equal ?OBJ3 (MereologicalSumFn ?OBJ1 ?OBJ2))\n (forall (?PART)\n (<=>\n (part ?PART ?OBJ3)\n (or\n (part ?PART ?OBJ1)\n (part ?PART ?OBJ2)))))"))
([UAX-435] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1051)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (equal ?OBJ3 (MereologicalProductFn ?OBJ1 ?OBJ2))\n (forall (?PART)\n (<=>\n (part ?PART ?OBJ3)\n (and\n (part ?PART ?OBJ1)\n (part ?PART ?OBJ2)))))"))
([UAX-436] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1053)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (equal ?OBJ3 (MereologicalDifferenceFn ?OBJ1 ?OBJ2))\n (forall (?PART)\n (<=>\n (part ?PART ?OBJ3)\n (and\n (part ?PART ?OBJ1)\n (not\n (part ?PART ?OBJ2))))))"))
([UAX-437] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1057)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(<=>\n (instance ?HOLE Hole)\n (exists (?OBJ)\n (hole ?HOLE ?OBJ)))"))
([UAX-438] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1058)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (hole ?HOLE ?OBJ)\n (not\n (instance ?OBJ Hole)))"))
([UAX-439] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1059)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (hole ?HOLE ?OBJ)\n (not\n (overlapsSpatially ?HOLE ?OBJ)))"))
([UAX-440] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1061)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (hole ?HOLE ?OBJ1)\n (hole ?HOLE ?OBJ2))\n (exists (?OBJ3)\n (and\n (properPart ?OBJ3 (MereologicalProductFn ?OBJ1 ?OBJ2))\n (hole ?HOLE ?OBJ3))))"))
([UAX-441] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1063)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (hole ?HOLE1 ?OBJ)\n (hole ?HOLE2 ?OBJ))\n (forall (?HOLE3)\n (=>\n (part ?HOLE3 (MereologicalSumFn ?HOLE1 ?HOLE2))\n (hole ?HOLE3 ?OBJ))))"))
([UAX-442] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1065)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (hole ?HOLE ?OBJ1)\n (part ?OBJ1 ?OBJ2))\n (or\n (overlapsSpatially ?HOLE ?OBJ2)\n (hole ?HOLE ?OBJ2)))"))
([UAX-443] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1067)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (hole ?HOLE1 ?OBJ1)\n (hole ?HOLE2 ?OBJ2)\n (overlapsSpatially ?HOLE1 ?HOLE2))\n (overlapsSpatially ?OBJ1 ?OBJ2))"))
([UAX-444] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1069)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (instance ?HOLE1 Hole)\n (exists (?HOLE2)\n (properPart ?HOLE2 ?HOLE1)))"))
([UAX-445] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1073)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (equal ?OBJ1 (PrincipalHostFn ?HOLE))\n (forall (?OBJ2)\n (<=>\n (overlapsSpatially ?OBJ2 ?OBJ1)\n (exists (?OBJ3)\n (and\n (hole ?HOLE ?OBJ3)\n (overlapsSpatially ?OBJ2 ?OBJ3))))))"))
([UAX-446] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1075)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (hole ?HOLE ?OBJ)\n (connected ?HOLE ?OBJ))"))
([UAX-447] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1077)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?HOLE1 Hole)\n (properPart ?HOLE2 ?HOLE1))\n (exists (?OBJ)\n (and\n (meetsSpatially ?HOLE1 ?OBJ)\n (not\n (meetsSpatially ?HOLE2 ?OBJ)))))"))
([UAX-448] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1079)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (exists (?TIME)\n (holdsDuring ?TIME\n (fills ?OBJ ?HOLE)))\n (attribute ?HOLE Fillable))"))
([UAX-449] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1081)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(<=>\n (attribute ?HOLE1 Fillable)\n (exists (?HOLE2)\n (and\n (instance ?HOLE2 Hole)\n (part ?HOLE1 ?HOLE2))))"))
([UAX-450] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1083)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (partiallyFills ?OBJ ?HOLE1)\n (exists (?HOLE2)\n (and\n (part ?HOLE2 ?HOLE1)\n (completelyFills ?OBJ ?HOLE2))))"))
([UAX-451] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1085)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (properlyFills ?OBJ ?HOLE1)\n (exists (?HOLE2)\n (and\n (part ?HOLE2 ?HOLE1)\n (fills ?OBJ ?HOLE2))))"))
([UAX-452] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1087)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (completelyFills ?OBJ1 ?HOLE)\n (exists (?OBJ2)\n (and\n (part ?OBJ2 ?OBJ1)\n (fills ?OBJ2 ?HOLE))))"))
([UAX-453] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1090)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (fills ?OBJ1 ?HOLE)\n (attribute ?OBJ2 Fillable))\n (not\n (overlapsSpatially ?OBJ1 ?OBJ2)))"))
([UAX-454] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1092)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (completelyFills ?OBJ1 ?HOLE)\n (forall (?OBJ2)\n (=>\n (connected ?OBJ2 ?HOLE)\n (connected ?OBJ2 ?OBJ1))))"))
([UAX-455] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1094)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (properlyFills ?OBJ1 ?HOLE)\n (connected ?OBJ2 ?OBJ1))\n (connected ?HOLE ?OBJ2))"))
([UAX-456] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1096)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (fills ?OBJ ?HOLE1)\n (properPart ?HOLE2 ?HOLE1))\n (completelyFills ?OBJ ?HOLE2))"))
([UAX-457] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1098)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (and\n (fills ?OBJ1 ?HOLE)\n (properPart ?OBJ2 ?OBJ1))\n (properlyFills ?OBJ2 ?HOLE))"))
([UAX-458] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1100)
(%3AisInModule [MEREOTOPOLOGY])
(%3APAL-STATEMENT "(=>\n (equal ?OBJ1 (SkinFn ?HOLE))\n (forall (?OBJ2)\n (<=>\n (overlapsSpatially ?OBJ2 ?OBJ1)\n (exists (?OBJ3)\n (and\n (superficialPart ?OBJ3 (PrincipalHostFn ?HOLE))\n (meetsSpatially ?HOLE ?OBJ3)\n (overlapsSpatially ?OBJ2 ?OBJ3))))))"))
([UAX-459] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1106)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (subProcess ?SUBPROC ?PROC)\n (or\n (equal (WhenFn ?SUBPROC) (WhenFn ?PROC))\n (during (WhenFn ?SUBPROC) (WhenFn ?PROC))))"))
([UAX-460] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1107)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (subProcess ?SUBPROC ?PROC)\n (forall (?REGION)\n (=>\n (located ?PROC ?REGION)\n (located ?SUBPROC ?REGION))))"))
([UAX-461] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1109)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?PROC Process)\n (subProcess ?SUBPROC ?PROC))\n (exists (?TIME)\n (time ?SUBPROC ?TIME)))"))
([UAX-462] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1112)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?PROC BiologicalProcess)\n (exists (?OBJ)\n (and\n (instance ?OBJ Organism)\n (located ?PROC ?OBJ))))"))
([UAX-463] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1113)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?PROC BiologicalProcess)\n (experiencer ?PROC ?ORG))\n (instance ?ORG Organism))"))
([UAX-464] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1118)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?BIRTH Birth)\n (experiencer ?BIRTH ?AGENT))\n (exists (?DEATH)\n (and\n (instance ?DEATH Death)\n (experiencer ?DEATH ?AGENT))))"))
([UAX-465] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1120)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DEATH Death)\n (experiencer ?DEATH ?AGENT))\n (holdsDuring (FutureFn (WhenFn ?DEATH)) (attribute ?AGENT Dead)))"))
([UAX-466] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1121)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DEATH Death)\n (instance ?BIRTH Birth)\n (experiencer ?DEATH ?AGENT)\n (experiencer ?BIRTH ?AGENT))\n (exists (?TIME)\n (and\n (meetsTemporally (WhenFn ?BIRTH) ?TIME)\n (meetsTemporally ?TIME (WhenFn ?DEATH))\n (holdsDuring ?TIME (attribute ?AGENT Living)))))"))
([UAX-467] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1124)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?ACT Ingesting)\n (patient ?ACT ?FOOD))\n (instance ?FOOD Food))"))
([UAX-468] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1126)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?ACT Eating)\n (patient ?ACT ?FOOD))\n (attribute ?FOOD Solid))"))
([UAX-469] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1129)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DIGEST Digesting)\n (agent ?DIGEST ?ORGANISM))\n (exists (?INGEST)\n (and\n (instance ?INGEST Ingesting)\n (agent ?INGEST ?ORGANISM)\n (overlapsTemporally (WhenFn ?INGEST) (WhenFn ?DIGEST)))))"))
([UAX-470] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1130)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?DIGEST Digesting)\n (exists (?DECOMP)\n (and\n (instance ?DECOMP ChemicalDecomposition)\n (subProcess ?DECOMP ?DIGEST))))"))
([UAX-471] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1133)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?REP Replication)\n (agent ?REP ?PARENT)\n (result ?REP ?CHILD))\n (parent ?CHILD ?PARENT))"))
([UAX-472] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1134)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?REP Replication)\n (exists (?BODY)\n (and\n (instance ?BODY ReproductiveBody)\n (result ?REP ?BODY))))"))
([UAX-473] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1136)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?REP SexualReproduction)\n (result ?REP ?ORGANISM))\n (exists (?MOTHER ?FATHER)\n (and\n (mother ?ORGANISM ?MOTHER)\n (father ?ORGANISM ?FATHER))))"))
([UAX-474] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1138)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?REP AsexualReproduction)\n (result ?REP ?ORGANISM))\n (not (exists (?PARENT1 ?PARENT2)\n (and\n (parent ?ORGANISM ?PARENT1)\n (parent ?ORGANISM ?PARENT2)\n (not (equal ?PARENT1 ?PARENT2))))))"))
([UAX-475] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1140)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?PROCESS PsychologicalProcess)\n (exists (?ANIMAL)\n (and\n (instance ?ANIMAL Animal)\n (experiencer ?PROCESS ?ANIMAL))))"))
([UAX-476] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1142)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?PROC OrganOrTissueProcess)\n (exists (?THING)\n (and\n (located ?PROC ?THING)\n (or\n (instance ?THING Organ)\n (instance ?THING Tissue)))))"))
([UAX-477] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1144)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?PATH PathologicProcess)\n (experiencer ?PATH ?ORG))\n (exists (?PART ?DISEASE)\n (and\n (part ?PART ?ORG)\n (instance ?DISEASE DiseaseOrSyndrome)\n (attribute ?PART ?DISEASE))))"))
([UAX-478] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1146)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?INJ Injuring)\n (exists (?STRUCT)\n (and\n (instance ?STRUCT AnatomicalStructure)\n (patient ?INJ ?STRUCT))))"))
([UAX-479] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1147)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(<=>\n (instance ?INJ Injuring)\n (and\n (instance ?INJ Damaging)\n (exists (?ORGANISM)\n (and\n (instance ?ORGANISM Organism)\n (patient ?INJ ?ORGANISM)))))"))
([UAX-480] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1149)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?POISON Poisoning)\n (exists (?THING)\n (and\n (patient ?POISON ?THING)\n (or\n (instance ?THING Organism)\n (instance ?THING AnatomicalStructure)))))"))
([UAX-481] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1150)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?POISON Poisoning)\n (exists (?SUBSTANCE)\n (and\n (instance ?SUBSTANCE BiologicallyActiveSubstance)\n (instrument ?POISON ?SUBSTANCE))))"))
([UAX-482] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1152)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?PROC IntentionalProcess)\n (agent ?PROC ?AGENT))\n (exists (?PURP)\n (hasPurposeForAgent ?PROC ?PURP ?AGENT)))"))
([UAX-483] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1153)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?PROC IntentionalProcess)\n (exists (?AGENT)\n (and\n (instance ?AGENT CognitiveAgent)\n (agent ?PROC ?AGENT))))"))
([UAX-484] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1154)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?PROC IntentionalProcess)\n (agent ?PROC ?HUMAN)\n (instance ?HUMAN Animal))\n (holdsDuring (WhenFn ?PROC) (attribute ?HUMAN Awake)))"))
([UAX-485] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1158)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?ACT OrganizationalProcess)\n (agent ?ACT ?AGENT))\n (or\n (instance ?AGENT Organization)\n (exists (?ORG)\n (and\n (instance ?ORG Organization)\n (member ?AGENT ?ORG)))))"))
([UAX-486] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1161)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?ACT ReligiousProcess)\n (agent ?ACT ?AGENT))\n (or\n (instance ?AGENT ReligiousOrganization)\n (exists (?ORG)\n (and\n (member ?AGENT ?ORG)\n (instance ?ORG ReligiousOrganization)))))"))
([UAX-487] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1163)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?JOIN JoiningAnOrganization)\n (instance ?ORG Organization)\n (agent ?JOIN ?PERSON)\n (patient ?JOIN ?ORG))\n (and\n (holdsDuring (BeginFn (WhenFn ?JOIN)) (not (member ?PERSON ?ORG)))\n (holdsDuring (EndFn (WhenFn ?JOIN)) (member ?PERSON ?ORG))))"))
([UAX-488] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1165)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?LEAVE LeavingAnOrganization)\n (instance ?ORG Organization)\n (agent ?LEAVE ?PERSON)\n (patient ?LEAVE ?ORG))\n (and\n (holdsDuring (BeginFn (WhenFn ?LEAVE)) (member ?PERSON ?ORG))\n (holdsDuring (EndFn (WhenFn ?LEAVE)) (not (member ?PERSON ?ORG)))))"))
([UAX-489] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1167)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?GRAD Graduation)\n (agent ?GRAD ?ORG)\n (patient ?GRAD ?PERSON))\n (instance ?ORG EducationalOrganization))"))
([UAX-490] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1169)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?MAT Matriculation)\n (agent ?MAT ?ORG)\n (patient ?MAT ?PERSON))\n (instance ?ORG EducationalOrganization))"))
([UAX-491] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1171)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?HIRE Hiring)\n (instance ?ORG Organization)\n (agent ?HIRE ?ORG)\n (patient ?HIRE ?PERSON))\n (and\n (holdsDuring (BeginFn (WhenFn ?HIRE)) (not (employs ?ORG ?PERSON)))\n (holdsDuring (EndFn (WhenFn ?HIRE)) (employs ?ORG ?PERSON))))"))
([UAX-492] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1173)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?FIRE TerminatingEmployment)\n (instance ?ORG Organization)\n (agent ?FIRE ?ORG)\n (patient ?FIRE ?PERSON))\n (and\n (holdsDuring (BeginFn (WhenFn ?FIRE)) (employs ?ORG ?PERSON))\n (holdsDuring (EndFn (WhenFn ?FIRE)) (not (employs ?ORG ?PERSON)))))"))
([UAX-493] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1175)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?PROC PoliticalProcess)\n (exists (?POL)\n (and\n (or\n (instance ?POL Government)\n (exists (?GOV)\n (and\n (instance ?GOV Government)\n (member ?POL ?GOV))))\n (or\n (agent ?PROC ?POL)\n (patient ?PROC ?POL)))))"))
([UAX-494] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1177)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?PROCESS JudicialProcess)\n (agent ?PROCESS ?ORG)\n (instance ?ORG Organization))\n (instance ?ORG JudicialOrganization))"))
([UAX-495] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1184)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?INTERPRET Interpreting)\n (agent ?INTERPRET ?AGENT)\n (patient ?INTERPRET ?CONTENT)\n (instance ?CONTENT ContentBearingObject))\n (exists (?PROP)\n (holdsDuring (EndFn (WhenFn ?INTERPRET)) (believes ?AGENT (containsInformation ?CONTENT ?PROP)))))"))
([UAX-496] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1187)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?INCREASE Increasing)\n (patient ?INCREASE ?OBJ))\n (exists (?UNIT ?QUANT1 ?QUANT2)\n (and\n (holdsDuring (BeginFn (WhenFn ?INCREASE)) (equal (MeasureFn ?OBJ ?UNIT) ?QUANT1))\n (holdsDuring (EndFn (WhenFn ?INCREASE)) (equal (MeasureFn ?OBJ ?UNIT) ?QUANT2))\n (greaterThan ?QUANT2 ?QUANT1))))"))
([UAX-497] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1189)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?HEAT Heating)\n (patient ?HEAT ?OBJ))\n (exists (?UNIT ?QUANT1 ?QUANT2)\n (and\n (instance ?UNIT TemperatureMeasure)\n (holdsDuring (BeginFn (WhenFn ?HEAT)) (equal (MeasureFn ?OBJ ?UNIT) ?QUANT1))\n (holdsDuring (EndFn (WhenFn ?HEAT)) (equal (MeasureFn ?OBJ ?UNIT) ?QUANT2))\n (greaterThan ?QUANT2 ?QUANT1))))"))
([UAX-498] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1191)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DECREASE Decreasing)\n (patient ?DECREASE ?OBJ))\n (exists (?UNIT ?QUANT1 ?QUANT2)\n (and\n (holdsDuring (BeginFn (WhenFn ?DECREASE)) (equal (MeasureFn ?OBJ ?UNIT) ?QUANT1))\n (holdsDuring (EndFn (WhenFn ?DECREASE)) (equal (MeasureFn ?OBJ ?UNIT) ?QUANT2))\n (lessThan ?QUANT2 ?QUANT1))))"))
([UAX-499] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1193)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?COOL Cooling)\n (patient ?COOL ?OBJ))\n (exists (?UNIT ?QUANT1 ?QUANT2)\n (and\n (instance ?UNIT TemperatureMeasure)\n (holdsDuring (BeginFn (WhenFn ?COOL)) (equal (MeasureFn ?OBJ ?UNIT) ?QUANT1))\n (holdsDuring (EndFn (WhenFn ?COOL)) (equal (MeasureFn ?OBJ ?UNIT) ?QUANT2))\n (lessThan ?QUANT2 ?QUANT1))))"))
([UAX-500] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1195)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?MOTION Motion)\n (patient ?MOTION ?OBJ)\n (origin ?MOTION ?PLACE))\n (holdsDuring (BeginFn (WhenFn ?MOTION)) (located ?OBJ ?PLACE)))"))
([UAX-501] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1196)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?MOTION Motion)\n (patient ?MOTION ?OBJ)\n (destination ?MOTION ?PLACE))\n (holdsDuring (EndFn (WhenFn ?MOTION)) (located ?OBJ ?PLACE)))"))
([UAX-502] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1198)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (path ?PROCESS ?PATH1)\n (origin ?PROCESS ?SOURCE)\n (destination ?PROCESS ?DEST)\n (length ?PATH1 ?MEASURE1)\n (distance ?SOURCE ?DEST ?DISTANCE)\n (not (greaterThan ?MEASURE1 ?DISTANCE)))\n (forall (?OBJ)\n (=>\n (part ?OBJ ?PATH1)\n (between ?SOURCE ?OBJ ?DEST))))"))
([UAX-503] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1200)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?MOTION BodyMotion)\n (exists (?OBJ ?AGENT)\n (and\n (instance ?OBJ BodyPart)\n (patient ?MOTION ?OBJ)\n (instance ?AGENT Organism)\n (agent ?MOTION ?AGENT))))"))
([UAX-504] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1202)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?VOCAL Vocalizing)\n (exists (?HUMAN)\n (and\n (instance ?HUMAN Human)\n (agent ?VOCAL ?HUMAN)\n (instrument ?VOCAL ?HUMAN))))"))
([UAX-505] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1208)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?WALK Walking)\n (instance ?RUN Running)\n (agent ?WALK ?AGENT)\n (agent ?RUN ?AGENT)\n (holdsDuring (WhenFn ?WALK) (measure ?AGENT (SpeedFn ?LENGTH1 ?TIME)))\n (holdsDuring (WhenFn ?RUN) (measure ?AGENT (SpeedFn ?LENGTH2 ?TIME))))\n (greaterThan ?LENGTH2 ?LENGTH1))"))
([UAX-506] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1210)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?SWIM Swimming)\n (agent ?SWIM ?AGENT))\n (exists (?AREA)\n (and\n (instance ?AREA WaterArea)\n (located ?AGENT ?AREA))))"))
([UAX-507] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1217)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?PROC DirectionChange)\n (exists (?ATTR)\n (and\n (instance ?ATTR DirectionalAttribute)\n (or\n (and\n (holdsDuring (BeginFn (WhenFn ?PROC)) (manner ?PROC ?ATTR))\n (holdsDuring (EndFn (WhenFn ?PROC)) (not (manner ?PROC ?ATTR))))\n (and\n (holdsDuring (EndFn (WhenFn ?PROC)) (manner ?PROC ?ATTR))\n (holdsDuring (BeginFn (WhenFn ?PROC)) (not (manner ?PROC ?ATTR))))))))"))
([UAX-508] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1219)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?TRANSFER Transfer)\n (agent ?TRANSFER ?AGENT)\n (patient ?TRANSFER ?PATIENT))\n (not\n (equal ?AGENT ?PATIENT)))"))
([UAX-509] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1221)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?CARRY Carrying)\n (exists (?ANIMAL)\n (and\n (instance ?ANIMAL Animal)\n (instrument ?TRANS ?ANIMAL))))"))
([UAX-510] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1223)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?REMOVE Removing)\n (origin ?REMOVE ?PLACE)\n (patient ?REMOVE ?OBJ))\n (and\n (holdsDuring (BeginFn (WhenFn ?REMOVE)) (located ?OBJ ?PLACE))\n (holdsDuring (EndFn (WhenFn ?REMOVE)) (not (located ?OBJ ?PLACE)))))"))
([UAX-511] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1226)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?PUT Putting)\n (destination ?PUT ?PLACE)\n (patient ?PUT ?OBJ))\n (and\n (holdsDuring (BeginFn (WhenFn ?PUT)) (not (located ?OBJ ?PLACE)))\n (holdsDuring (EndFn (WhenFn ?PUT)) (located ?OBJ ?PLACE))))"))
([UAX-512] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1229)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DRESS Dressing)\n (agent ?DRESS ?AGENT)\n (patient ?DRESS ?CLOTHING))\n (and\n (instance ?CLOTHING Clothing)\n (holdsDuring (BeginFn (WhenFn ?DRESS)) (not (wears ?AGENT ?CLOTHING)))\n (holdsDuring (EndFn (WhenFn ?DRESS)) (wears ?AGENT ?CLOTHING))))"))
([UAX-513] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1231)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?INSERT Inserting)\n (patient ?INSERT ?OBJ1)\n (destination ?INSERT ?OBJ2))\n (and\n (holdsDuring (BeginFn (WhenFn ?INSERT)) (not (contains ?OBJ2 ?OBJ1)))\n (holdsDuring (EndFn (WhenFn ?INSERT)) (contains ?OBJ2 ?OBJ1))))"))
([UAX-514] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1233)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?INJECT Injecting)\n (exists (?SUBSTANCE ?ANIMAL)\n (and\n (patient ?INJECT ?SUBSTANCE)\n (instance ?SUBSTANCE BiologicallyActiveSubstance)\n (attribute ?SUBSTANCE Liquid)\n (destination ?INJECT ?ANIMAL)\n (instance ?ANIMAL Animal))))"))
([UAX-515] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1235)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?SUB Substituting)\n (exists (?PUT ?REMOVE ?OBJ1 ?OBJ2 ?PLACE)\n (and\n (instance ?PUT Putting)\n (instance ?REMOVE Removing)\n (subProcess ?PUT ?SUB)\n (subProcess ?REMOVE ?SUB)\n (patient ?REMOVE ?OBJ1)\n (origin ?REMOVE ?PLACE)\n (patient ?PUT ?OBJ2)\n (destination ?PUT ?PLACE)\n (not (equal ?OBJ1 ?OBJ2)))))"))
([UAX-516] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1239)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?TOUCH Touching)\n (agent ?TOUCH ?OBJ1)\n (patient ?TOUCH ?OBJ2))\n (and\n (holdsDuring (BeginFn (WhenFn ?TOUCH)) (not (connected ?OBJ1 ?OBJ2)))\n (holdsDuring (EndFn (WhenFn ?TOUCH)) (connected ?OBJ1 ?OBJ2))))"))
([UAX-517] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1242)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?GRAB Grabbing)\n (agent ?GRAB ?AGENT)\n (patient ?GRAB ?THING))\n (and\n (holdsDuring (BeginFn (WhenFn ?GRAB)) (not (grasps ?AGENT ?THING)))\n (holdsDuring (EndFn (WhenFn ?GRAB)) (grasps ?AGENT ?THING))))"))
([UAX-518] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1244)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?RELEASE Releasing)\n (agent ?GRAB ?AGENT)\n (patient ?GRAB ?THING))\n (and\n (holdsDuring (BeginFn (WhenFn ?RELEASE)) (grasps ?AGENT ?THING))\n (holdsDuring (EndFn (WhenFn ?RELEASE)) (not (grasps ?AGENT ?THING)))))"))
([UAX-519] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1246)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?IMPACT Impacting)\n (patient ?IMPACT ?OBJ))\n (exists (?IMPEL)\n (and\n (instance ?IMPEL Impelling)\n (patient ?IMPEL ?OBJ)\n (earlier (WhenFn ?IMPEL) (WhenFn ?IMPACT)))))"))
([UAX-520] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1248)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?MOVEMENT Translocation)\n (origin ?MOVEMENT ?PLACE1))\n (exists (?PLACE2 ?STAGE)\n (and\n (instance ?PLACE2 Region)\n (not (equal ?PLACE1 ?PLACE2))\n (subProcess ?STAGE ?MOVEMENT)\n (located ?STAGE ?PLACE2))))"))
([UAX-521] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1250)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?TRANS Transportation)\n (exists (?DEVICE)\n (and\n (instance ?DEVICE TransportationDevice)\n (instrument ?TRANS ?DEVICE))))"))
([UAX-522] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1253)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?STEER Steering)\n (exists (?VEHICLE)\n (and\n (instance ?VEHICLE TransportationDevice)\n (patient ?STEER ?VEHICLE))))"))
([UAX-523] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1255)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?EDUCATION EducationalProcess)\n (patient ?EDUCATION ?PERSON))\n (hasPurpose ?EDUCATION (exists (?LEARN)\n (and\n (instance ?LEARN Learning)\n (patient ?LEARN ?PERSON)))))"))
([UAX-524] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1257)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?CHANGE ChangeOfPossession)\n (patient ?CHANGE ?OBJ)\n (holdsDuring (BeginFn (WhenFn ?CHANGE)) (possesses ?AGENT1 ?OBJ))\n (holdsDuring (EndFn (WhenFn ?CHANGE)) (possesses ?AGENT2 ?OBJ)))\n (not\n (equal ?AGENT1 ?AGENT2)))"))
([UAX-525] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1258)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?CHANGE ChangeOfPossession)\n (origin ?CHANGE ?AGENT1)\n (destination ?CHANGE ?AGENT2)\n (instance ?AGENT1 Agent)\n (instance ?AGENT2 Agent)\n (patient ?CHANGE ?OBJ))\n (and\n (holdsDuring (BeginFn (WhenFn ?CHANGE)) (possesses ?AGENT1 ?OBJ))\n (holdsDuring (EndFn (WhenFn ?CHANGE)) (possesses ?AGENT2 ?OBJ))))"))
([UAX-526] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1260)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?GIVE Giving)\n (agent ?GIVE ?AGENT1)\n (destination ?GIVE ?AGENT2)\n (instance ?AGENT2 Agent)\n (patient ?GIVE ?OBJ))\n (exists (?GET)\n (and\n (instance ?GET Getting)\n (agent ?GET ?AGENT2)\n (origin ?GET ?AGENT1)\n (patient ?GET ?OBJ))))"))
([UAX-527] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1261)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?GIVE Giving)\n (agent ?GIVE ?AGENT))\n (origin ?GIVE ?AGENT))"))
([UAX-528] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1263)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?FUND Funding)\n (exists (?MONEY)\n (and\n (instance ?MONEY Currency)\n (patient ?FUND ?MONEY))))"))
([UAX-529] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1265)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?GIVE UnilateralGiving)\n (not\n (exists (?TRANS)\n (and\n (instance ?TRANS Transaction)\n (subProcess ?GIVE ?TRANS)))))"))
([UAX-530] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1267)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(<=>\n (exists (?BORROW)\n (and\n (instance ?BORROW Borrowing)\n (agent ?BORROW ?AGENT1)\n (origin ?BORROW ?AGENT2)\n (patient ?BORROW ?OBJECT)))\n (exists (?LEND)\n (and\n (instance ?LEND Lending)\n (agent ?LEND ?AGENT2)\n (destination ?LEND ?AGENT1)\n (patient ?LEND ?OBJECT))))"))
([UAX-531] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1269)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?RETURN GivingBack)\n (agent ?RETURN ?AGENT)\n (destination ?RETURN ?DEST))\n (exists (?GIVE)\n (and\n (instance ?GIVE Giving)\n (agent ?GIVE ?DEST)\n (destination ?GIVE ?AGENT)\n (earlier (WhenFn ?GIVE) (WhenFn ?RETURN)))))"))
([UAX-532] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1271)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?GET Getting)\n (agent ?GET ?AGENT))\n (destination ?GET ?AGENT))"))
([UAX-533] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1273)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?GET UnilateralGetting)\n (not\n (exists (?TRANS)\n (and\n (instance ?TRANS Transaction)\n (subProcess ?GET ?TRANS)))))"))
([UAX-534] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1276)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?TRANS Transaction)\n (exists (?AGENT1 ?AGENT2 ?GIVE1 ?GIVE2 ?OBJ1 ?OBJ2)\n (and\n (instance ?GIVE1 Giving)\n (instance ?GIVE2 Giving)\n (subProcess ?GIVE1 ?TRANS)\n (subProcess ?GIVE2 ?TRANS)\n (agent ?GIVE1 ?AGENT1)\n (agent ?GIVE2 ?AGENT2)\n (patient ?GIVE1 ?OBJ1)\n (patient ?GIVE2 ?OBJ2)\n (destination ?GIVE1 ?AGENT2)\n (destination ?GIVE2 ?AGENT1)\n (not\n (equal ?AGENT1 ?AGENT2))\n (not\n (equal ?OBJ1 ?OBJ2)))))"))
([UAX-535] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1278)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?TRANS FinancialTransaction)\n (exists (?OBJ)\n (and\n (patient ?TRANS ?OBJ)\n (instance ?OBJ CurrencyMeasure))))"))
([UAX-536] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1280)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (transactionAmount ?TRANS ?AMOUNT)\n (exists (?OBJ)\n (and\n (patient ?TRANS ?OBJ)\n (monetaryValue ?OBJ ?AMOUNT))))"))
([UAX-537] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1282)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?BUSINESS CommercialService)\n (exists (?AGENT)\n (and\n (instance ?AGENT CommercialAgent)\n (agent ?BUSINESS ?AGENT))))"))
([UAX-538] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1285)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?BUY Buying)\n (agent ?BUY ?AGENT))\n (destination ?BUY ?AGENT))"))
([UAX-539] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1287)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(<=>\n (exists (?BUY)\n (and\n (instance ?BUY Buying)\n (agent ?BUY ?AGENT1)\n (origin ?BUY ?AGENT2)\n (patient ?BUY ?OBJECT)))\n (exists (?SELL)\n (and\n (instance ?SELL Selling)\n (agent ?SELL ?AGENT2)\n (destination ?SELL ?AGENT1)\n (patient ?SELL ?OBJECT))))"))
([UAX-540] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1288)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?SELL Selling)\n (agent ?SELL ?AGENT))\n (origin ?SELL ?AGENT))"))
([UAX-541] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1290)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?LEARN Learning)\n (agent ?LEARN ?AGENT))\n (instance ?AGENT CognitiveAgent))"))
([UAX-542] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1291)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?LEARN Learning)\n (agent ?LEARN ?AGENT)\n (patient ?LEARN ?PROP))\n (and\n (holdsDuring (BeginFn (WhenFn ?LEARN)) (not (knows ?AGENT ?PROP)))\n (holdsDuring (EndFn (WhenFn ?LEARN)) (knows ?AGENT ?PROP))))"))
([UAX-543] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1293)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DISCOVER Discovering)\n (patient ?DISCOVER ?OBJ))\n (exists (?PURSUE)\n (and\n (instance ?PURSUE Pursuing)\n (meetsTemporally (WhenFn ?PURSUE) (WhenFn ?DISCOVER)))))"))
([UAX-544] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1294)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DISCOVER Discovering)\n (patient ?DISCOVER ?OBJ)\n (holdsDuring (WhenFn ?DISCOVER) (located ?OBJ ?PLACE)))\n (exists (?LEARN)\n (and\n (instance ?LEARN Learning)\n (subProcess ?LEARN ?DISCOVER)\n (patient ?LEARN (located ?OBJ ?PLACE)))))"))
([UAX-545] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1297)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?AGENT CognitiveAgent)\n (capability Reasoning agent ?AGENT))"))
([UAX-546] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1300)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DECIDE Deciding)\n (agent ?DECIDE ?AGENT)\n (patient ?DECIDE ?PROCESS))\n (and\n (instance ?PROCESS IntentionalProcess)\n (agent ?PROCESS ?AGENT)))"))
([UAX-547] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1302)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?DECISION LegalDecision)\n (exists (?ACTION)\n (and\n (instance ?ACTION LegalAction)\n (refers ?DECISION ?ACTION))))"))
([UAX-548] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1303)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?DECISION LegalDecision)\n (exists (?PROCESS)\n (and\n (instance ?PROCESS JudicialProcess)\n (subProcess ?DECISION ?PROCESS))))"))
([UAX-549] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1305)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?VOTE Voting)\n (exists (?ELECT)\n (and\n (instance ?ELECT Election)\n (subProcess ?VOTE ?ELECT))))"))
([UAX-550] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1309)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?MEAS Measuring)\n (agent ?MEAS ?AGENT)\n (patient ?MEAS ?OBJ))\n (exists (?QUANT ?UNIT)\n (holdsDuring (EndFn (WhenFn ?MEAS))\n (knows ?AGENT (measure ?OBJ (MeasureFn ?QUANT ?UNIT))))))"))
([UAX-551] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1311)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?COUNT Counting)\n (agent ?COUNT ?AGENT)\n (patient ?COUNT ?ENTITY))\n (exists (?NUMBER)\n (knows ?AGENT (equal (CardinalityFn ?ENTITY) ?NUMBER))))"))
([UAX-552] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1313)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?PREDICT Predicting)\n (patient ?PREDICT ?FORMULA))\n (exists (?TIME)\n (and\n (holdsDuring ?TIME ?FORMULA)\n (or\n (before ?TIME (WhenFn ?PREDICT))\n (earlier ?TIME (WhenFn ?PREDICT))))))"))
([UAX-553] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1315)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?REMEMBER Remembering)\n (patient ?REMEMBER ?FORMULA))\n (exists (?TIME)\n (and\n (holdsDuring ?TIME ?FORMULA)\n (or\n (before ?TIME (WhenFn ?REMEMBER))\n (earlier ?TIME (WhenFn ?REMEMBER))))))"))
([UAX-554] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1317)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?KEEP Keeping)\n (agent ?KEEP ?AGENT)\n (patient ?KEEP ?OBJ))\n (exists (?PUT)\n (and\n (instance ?PUT Putting)\n (agent ?PUT ?AGENT)\n (patient ?PUT ?OBJ)\n (earlier (WhenFn ?PUT) (WhenFn ?KEEP)))))"))
([UAX-555] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1318)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?KEEP Keeping)\n (patient ?KEEP ?OBJ))\n (exists (?PLACE)\n (forall (?TIME)\n (=>\n (temporalPart ?TIME (WhenFn ?KEEP))\n (holdsDuring ?TIME (located ?OBJ ?PLACE))))))"))
([UAX-556] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1320)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?CONFINE Confining)\n (exists (?AGENT)\n (and\n (or\n (instance ?AGENT Animal)\n (instance ?AGENT Human))\n (patient ?CONFINE ?AGENT))))"))
([UAX-557] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1321)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?CONFINE Confining)\n (patient ?CONFINE ?PERSON)\n (instance ?PERSON Human))\n (not (desires ?PERSON (patient ?CONFINE ?PERSON))))"))
([UAX-558] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1324)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?REPAIR Repairing)\n (patient ?REPAIR ?OBJ))\n (exists (?DAMAGE)\n (and\n (instance ?DAMAGE Damaging)\n (patient ?DAMAGE ?OBJ)\n (earlier (WhenFn ?DAMAGE) (WhenFn ?REPAIR)))))"))
([UAX-559] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1326)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?PROC TherapeuticProcess)\n (patient ?PROC ?BIO))\n (or\n (instance ?BIO Organism)\n (exists (?ORG)\n (and\n (instance ?ORG Organism)\n (part ?BIO ?ORG)))))"))
([UAX-560] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1328)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?ACT Surgery)\n (patient ?ACT ?ANIMAL))\n (exists (?SUBACT)\n (and\n (instance ?SUBACT Cutting)\n (instance ?ANIMAL Animal)\n (patient ?ANIMAL ?CUTTING)\n (subProcess ?SUBACT ?ACT))))"))
([UAX-561] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1331)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(<=>\n (instance ?PROCESS Destruction)\n (exists (?PATIENT)\n (and\n (patient ?PROCESS ?PATIENT)\n (time ?PATIENT (BeginFn(WhenFn ?PROCESS)))\n (not\n (time ?PATIENT (EndFn (WhenFn ?PROCESS)))))))"))
([UAX-562] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1333)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?KILL Killing)\n (agent ?KILL ?AGENT)\n (patient ?KILL ?PATIENT))\n (and\n (instance ?AGENT Organism)\n (instance ?PATIENT Organism)))"))
([UAX-563] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1334)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?KILL Killing)\n (patient ?KILL ?PATIENT))\n (and\n (holdsDuring (BeginFn (WhenFn ?KILL)) (attribute ?PATIENT Living))\n (holdsDuring (FutureFn (WhenFn ?KILL)) (attribute ?PATIENT Dead))))"))
([UAX-564] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1335)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?KILL Killing)\n (patient ?KILL ?OBJ))\n (exists (?DEATH)\n (and\n (instance ?DEATH Death)\n (experiencer ?DEATH ?OBJ)\n (causes ?KILL ?DEATH))))"))
([UAX-565] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1337)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?POKE Poking)\n (agent ?POKE ?AGENT)\n (patient ?POKE ?OBJ)\n (instrument ?POKE ?INST))\n (holdsDuring (WhenFn ?POKE) (connects ?INST ?AGENT ?OBJ)))"))
([UAX-566] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1340)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?ATTACH Attaching)\n (patient ?ATTACH ?OBJ1)\n (patient ?ATTACH ?OBJ2))\n (and\n (holdsDuring (BeginFn (WhenFn ?ATTACH)) (not (connected ?OBJ1 ?OBJ2)))\n (holdsDuring (EndFn (WhenFn ?ATTACH)) (connected ?OBJ1 ?OBJ2))))"))
([UAX-567] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1342)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DETACH Detaching)\n (patient ?DETACH ?OBJ1)\n (patient ?DETACH ?OBJ2))\n (and\n (holdsDuring (BeginFn (WhenFn ?DETACH)) (connected ?OBJ1 ?OBJ2))\n (holdsDuring (EndFn (WhenFn ?DETACH)) (not (connected ?OBJ1 ?OBJ2)))))"))
([UAX-568] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1344)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(<=>\n (and\n (instance ?COMBINE Combining)\n (resource ?COMBINE ?OBJ1)\n (result ?COMBINE ?OBJ2))\n (and\n (holdsDuring (BeginFn (WhenFn ?COMBINE)) (not (piece ?OBJ1 ?OBJ2)))\n (holdsDuring (EndFn (WhenFn ?COMBINE)) (piece ?OBJ1 ?OBJ2))))"))
([UAX-569] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1347)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?PROC ChemicalProcess)\n (or\n (resource ?PROC ?STUFF)\n (result ?PROC ?STUFF)))\n (instance ?STUFF PureSubstance))"))
([UAX-570] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1349)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (resource ?PROC ?SUBSTANCE1)\n (result ?PROC ?SUBSTANCE2)\n (instance ?SUBSTANCE1 ElementalSubstance)\n (instance ?SUBSTANCE2 CompoundSubstance))\n (instance ?PROC ChemicalSynthesis))"))
([UAX-571] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1350)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(<=>\n (instance ?COMPOUND CompoundSubstance)\n (exists (?ELEMENT1 ?ELEMENT2 ?PROCESS)\n (and\n (instance ?ELEMENT1 ElementalSubstance)\n (instance ?ELEMENT2 ElementalSubstance)\n (not (equal ?ELEMENT1 ?ELEMENT2))\n (instance ?PROCESS ChemicalSynthesis)\n (resource ?PROCESS ?ELEMENT1)\n (resource ?PROCESS ?ELEMENT2)\n (result ?PROCESS ?COMPOUND))))"))
([UAX-572] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1352)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (resource ?PROC ?SUBSTANCE1)\n (result ?PROC ?SUBSTANCE2)\n (instance ?SUBSTANCE1 CompoundSubstance)\n (instance ?SUBSTANCE2 ElementalSubstance))\n (instance ?PROC ChemicalDecomposition))"))
([UAX-573] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1354)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?COMBUSTION Combustion)\n (exists (?HEAT ?LIGHT)\n (and\n (instance ?HEAT Heating)\n (instance ?LIGHT RadiatingLight)\n (subProcess ?HEAT ?COMBUSTION)\n (subProcess ?LIGHT ?COMBUSTION))))"))
([UAX-574] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1356)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?CHANGE InternalChange)\n (patient ?CHANGE ?OBJ))\n (exists (?PROPERTY)\n (or\n (and\n (holdsDuring (BeginFn (WhenFn ?CHANGE)) (attribute ?OBJ ?PROPERTY))\n (holdsDuring (EndFn (WhenFn ?CHANGE)) (not (attribute ?OBJ ?PROPERTY))))\n (and\n (holdsDuring (BeginFn (WhenFn ?CHANGE)) (not (attribute ?OBJ ?PROPERTY)))\n (holdsDuring (EndFn (WhenFn ?CHANGE)) (attribute ?OBJ ?PROPERTY))))))"))
([UAX-575] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1359)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?PROCESS Precipitation)\n (exists (?STUFF)\n (and\n (instance ?STUFF Water)\n (patient ?PROCESS ?STUFF))))"))
([UAX-576] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1361)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?ALT SurfaceChange)\n (patient ?ALT ?OBJ))\n (exists (?PART ?PROPERTY)\n (and\n (superficialPart ?PART ?OBJ)\n (or\n (and\n (holdsDuring (BeginFn (WhenFn ?ALT)) (attribute ?PART ?PROPERTY))\n (holdsDuring (EndFn (WhenFn ?ALT)) (not (attribute ?PART ?PROPERTY))))\n (and\n (holdsDuring (BeginFn (WhenFn ?ALT)) (not (attribute ?PART ?PROPERTY)))\n (holdsDuring (EndFn (WhenFn ?ALT)) (attribute ?PART ?PROPERTY)))))))"))
([UAX-577] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1363)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?COLORING Coloring)\n (patient ?COLORING ?OBJ))\n (exists (?PROPERTY)\n (and\n (instance ?PROPERTY ColorAttribute)\n (or\n (and\n (holdsDuring (BeginFn (WhenFn ?ALT)) (attribute ?PART ?PROPERTY))\n (holdsDuring (EndFn (WhenFn ?ALT)) (not (attribute ?PART ?PROPERTY))))\n (and\n (holdsDuring (BeginFn (WhenFn ?ALT)) (not (attribute ?PART ?PROPERTY)))\n (holdsDuring (EndFn (WhenFn ?ALT)) (attribute ?PART ?PROPERTY)))))))"))
([UAX-578] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1365)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?ALT ShapeChange)\n (patient ?ALT ?OBJ))\n (exists (?PROPERTY)\n (and\n (instance ?PROPERTY ShapeAttribute)\n (or\n (and\n (holdsDuring (BeginFn (WhenFn ?ALT)) (attribute ?OBJ ?PROPERTY))\n (holdsDuring (EndFn (WhenFn ?ALT)) (not (attribute ?OBJ ?PROPERTY))))\n (and\n (holdsDuring (BeginFn (WhenFn ?ALT)) (not (attribute ?OBJ ?PROPERTY)))\n (holdsDuring (EndFn (WhenFn ?ALT)) (attribute ?OBJ ?PROPERTY)))))))"))
([UAX-579] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1367)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?DEVELOP ContentDevelopment)\n (exists (?OBJ)\n (and\n (instance ?OBJ ContentBearingObject)\n (patient ?DEVELOP ?OBJ))))"))
([UAX-580] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1369)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?READ Reading)\n (exists (?TEXT ?PROP)\n (and\n (instance ?TEXT Text)\n (containsInformation ?TEXT ?PROP)\n (realization ?READ ?PROP))))"))
([UAX-581] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1373)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DECODE Decoding)\n (patient ?DECODE ?DOC1))\n (exists (?ENCODE ?DOC2 ?TIME)\n (and\n (containsInformation ?DOC2 ?PROP)\n (containsInformation ?DOC1 ?PROP)\n (temporalPart ?TIME (PastFn (WhenFn ?DECODE)))\n (holdsDuring ?TIME\n (and\n (instance ?ENCODE Encoding)\n (patient ?ENCODE ?DOC2))))))"))
([UAX-582] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1375)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?TRANSLATE Translating)\n (resource ?TRANSLATE ?EXPRESSION1)\n (result ?TRANSLATE ?EXPRESSION2))\n (exists (?LANGUAGE1 ?LANGUAGE2 ?ENTITY)\n (and\n (representsInLanguage ?EXPRESSION1 ?ENTITY ?LANGUAGE1)\n (representsInLanguage ?EXPRESSION2 ?ENTITY ?LANGUAGE2)\n (not (equal ?LANGUAGE1 ?LANGUAGE2)))))"))
([UAX-583] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1377)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?WET Wetting)\n (patient ?WET ?OBJ))\n (holdsDuring (EndFn (WhenFn ?WET))\n (or\n (attribute ?OBJ Wet)\n (attribute ?OBJ Damp))))"))
([UAX-584] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1378)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?WET Wetting)\n (exists (?OBJ)\n (and\n (attribute ?OBJ Liquid)\n (patient ?WET ?OBJ))))"))
([UAX-585] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1380)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DRY Drying)\n (patient ?DRY ?OBJ))\n (holdsDuring (EndFn (WhenFn ?DRY))\n (attribute ?OBJ Dry)))"))
([UAX-586] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1382)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?ACTION Creation)\n (exists (?RESULT)\n (result ?ACTION ?RESULT)))"))
([UAX-587] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1383)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(<=>\n (instance ?PROCESS Creation)\n (exists (?PATIENT)\n (and\n (patient ?PROCESS ?PATIENT)\n (time ?PATIENT (EndFn(WhenFn ?PROCESS)))\n (not\n (time ?PATIENT (BeginFn (WhenFn ?PROCESS)))))))"))
([UAX-588] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1386)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(<=>\n (exists (?BUILD)\n (and\n (instance ?BUILD Constructing)\n (result ?BUILD ?ARTIFACT)))\n (instance ?ARTIFACT StationaryArtifact))"))
([UAX-589] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1389)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?PUB Publication)\n (patient ?PUB ?TEXT))\n (subclass ?TEXT Text))"))
([UAX-590] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1391)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?COOK Cooking)\n (exists (?FOOD)\n (and\n (instance ?FOOD Food)\n (result ?COOK ?FOOD))))"))
([UAX-591] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1393)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?PURSUE Pursuing)\n (exists (?OBJ)\n (and\n (instance ?OBJ Object)\n (patient ?PURSUE ?OBJ))))"))
([UAX-592] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1394)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?PURSUE Pursuing)\n (agent ?PURSUE ?AGENT)\n (patient ?PURSUE ?OBJ))\n (holdsDuring ?PURSUE (wants ?AGENT ?OBJ)))"))
([UAX-593] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1395)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?PURSUE Pursuing)\n (agent ?PURSUE ?AGENT)\n (patient ?PURSUE ?OBJ))\n (holdsDuring ?PURSUE (not (possesses ?AGENT ?OBJ))))"))
([UAX-594] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1397)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?INVESTIGATE Investigating)\n (patient ?INVESTIGATE ?PROP))\n (instance ?PROP Formula))"))
([UAX-595] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1398)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?INVESTIGATE Investigating)\n (agent ?INVESTIGATE ?AGENT)\n (patient ?INVESTIGATE ?PROP))\n (holdsDuring (WhenFn ?INVESTIGATE) (not (knows ?AGENT ?PROP))))"))
([UAX-596] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1400)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?PROC DiagnosticProcess)\n (agent ?PROC ?AGENT))\n (exists (?CAUSE)\n (hasPurposeForAgent ?PROC (knows ?AGENT (causes ?CAUSE ?PROC)) ?AGENT)))"))
([UAX-597] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1402)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?INTERACTION SocialInteraction)\n (exists (?AGENT1 ?AGENT2)\n (and\n (agent ?INTERACTION ?AGENT1)\n (agent ?INTERACTION ?AGENT2)\n (not\n (equal ?AGENT1 ?AGENT2)))))"))
([UAX-598] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1404)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?PRETEND Pretending)\n (exists (?PERSON ?PROP)\n (and\n (hasPurpose ?PRETEND (believes ?PERSON ?PROP))\n (true ?PROP True))))"))
([UAX-599] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1406)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?COMMUNICATE Communication)\n (exists (?PHYS ?ENTITY ?AGENT1 ?AGENT2)\n (and\n (refers ?PHYS ?ENTITY)\n (patient ?COMMUNICATE ?PHYS)\n (instance ?AGENT1 CognitiveAgent)\n (agent ?COMMUNICATE ?AGENT1)\n (instance ?AGENT2 CognitiveAgent)\n (destination ?COMMUNICATE ?AGENT2))))"))
([UAX-600] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1408)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?DISSEMINATE Disseminating)\n (exists (?AGENT1 ?AGENT2)\n (and\n (destination ?DISSEMINATE ?AGENT1)\n (instance ?AGENT1 CognitiveAgent)\n (destination ?DISSEMINATE ?AGENT2)\n (instance ?AGENT2 CognitiveAgent)\n (not (equal ?AGENT1 ?AGENT2)))))"))
([UAX-601] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1410)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?DEMO Demonstrating)\n (exists (?PERSON)\n (attends ?DEMO ?PERSON)))"))
([UAX-602] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1413)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?ADVERT Advertising)\n (exists (?OBJ)\n (and\n (refers ?ADVERT ?OBJ)\n (hasPurpose ?ADVERT (exists (?SALE) (and (instance ?SALE Selling) (patient ?SALE ?OBJ)))))))"))
([UAX-603] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1415)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?EXPRESS Expressing)\n (agent ?EXPRESS ?AGENT))\n (exists (?STATE)\n (and\n (instance ?STATE StateOfMind)\n (attribute ?AGENT ?STATE)\n (represents ?EXPRESS ?STATE))))"))
([UAX-604] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1417)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?GESTURE Gesture)\n (agent ?GESTURE ?AGENT))\n (exists (?STATE)\n (and\n (instance ?STATE StateOfMind)\n (attribute ?AGENT ?STATE)\n (represents ?GESTURE ?STATE))))"))
([UAX-605] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1420)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?COMMUNICATE LinguisticCommunication)\n (exists (?OBJ)\n (and\n (represents ?COMMUNICATE ?OBJ)\n (instance ?OBJ LinguisticExpression)\n (patient ?COMMUNICATE ?OBJ))))"))
([UAX-606] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1422)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?STATE Stating)\n (agent ?STATE ?AGENT)\n (patient ?STATE ?FORMULA)\n (instance ?FORMULA Formula))\n (holdsDuring (WhenFn ?STATE) (believes ?AGENT ?FORMULA)))"))
([UAX-607] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1426)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?ORDER Ordering)\n (patient ?ORDER ?FORMULA))\n (modalAttribute ?FORMULA Obligation))"))
([UAX-608] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1428)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?REQUEST Requesting)\n (agent ?REQUEST ?AGENT)\n (patient ?REQUEST ?FORMULA)\n (instance ?FORMULA Formula))\n (desires ?AGENT ?FORMULA))"))
([UAX-609] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1430)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?QUESTION Questioning)\n (agent ?QUESTION ?AGENT)\n (patient ?QUESTION ?FORMULA)\n (instance ?FORMULA Formula))\n (holdsDuring (WhenFn ?QUESTION) (not (knows ?AGENT ?FORMULA))))"))
([UAX-610] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1432)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?COMMIT Committing)\n (patient ?COMMIT ?FORMULA)\n (instance ?FORMULA Formula))\n (modalAttribute ?FORMULA Promise))"))
([UAX-611] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1435)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DECLARE Declaring)\n (agent ?DECLARE ?AGENT1))\n (exists (?PROC ?AGENT2)\n (or\n (confersRight ?PROC ?DECLARE ?AGENT2)\n (confersObligation ?PROC ?DECLARE ?AGENT2))))"))
([UAX-612] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1437)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?WED Wedding)\n (exists (?PERSON1 ?PERSON2)\n (result ?WED (spouse ?PERSON1 ?PERSON2))))"))
([UAX-613] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1439)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?PROCESS Naming)\n (patient ?PROCESS ?THING)\n (destination ?PROCESS ?NAME))\n (holdsDuring (FutureFn (WhenFn ?PROCESS)) (names ?NAME ?THING)))"))
([UAX-614] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1441)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?COOPERATE Cooperation)\n (exists (?PURP)\n (forall (?AGENT)\n (=>\n (agent ?COOPERATE ?AGENT)\n (hasPurposeForAgent ?COOPERATE ?PURP ?AGENT)))))"))
([UAX-615] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1443)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?MEET Meeting)\n (agent ?MEET ?AGENT1)\n (agent ?MEET ?AGENT2))\n (holdsDuring (WhenFn ?MEET) (orientation ?AGENT1 ?AGENT2 Near)))"))
([UAX-616] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1444)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?MEET Meeting)\n (exists (?AGENT1 ?AGENT2)\n (and\n (agent ?MEET ?AGENT1)\n (agent ?MEET ?AGENT2)\n (hasPurpose ?MEET (exists (?COMM) (and (instance ?COMM Communication) (agent ?COMM ?AGENT1) (agent ?COMM ?AGENT2)))))))"))
([UAX-617] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1446)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?CONTEST Contest)\n (exists (?AGENT1 ?AGENT2 ?PURP1 ?PURP2)\n (and\n (agent ?CONTEST ?AGENT1)\n (agent ?CONTEST ?AGENT2)\n (hasPurposeForAgent ?CONTEST ?PURP1 ?AGENT1)\n (hasPurposeForAgent ?CONTEST ?PURP2 ?AGENT2)\n (not\n (equal ?AGENT1 ?AGENT2))\n (not\n (equal ?PURP1 ?PURP2)))))"))
([UAX-618] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1449)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?WAR War)\n (exists (?BATTLE)\n (and\n (instance ?BATTLE Battle)\n (subProcess ?BATTLE ?WAR))))"))
([UAX-619] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1450)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?WAR War)\n (agent ?WAR ?AGENT))\n (or\n (instance ?AGENT GeopoliticalArea)\n (and\n (instance ?AGENT Organization)\n (forall (?MEMBER)\n (=>\n (member ?MEMBER ?AGENT)\n (instance ?MEMBER GeopoliticalArea))))))"))
([UAX-620] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1452)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?BATTLE Battle)\n (exists (?WAR)\n (and\n (instance ?WAR War)\n (subProcess ?BATTLE ?WAR))))"))
([UAX-621] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1453)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?BATTLE Battle)\n (exists (?ATTACK)\n (and\n (instance ?ATTACK ViolentContest)\n (subProcess ?ATTACK ?BATTLE))))"))
([UAX-622] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1458)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?MOVE Maneuver)\n (exists (?CONTEST)\n (and\n (instance ?CONTEST Contest)\n (subProcess ?MOVE ?CONTEST))))"))
([UAX-623] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1460)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?ATTACK Attack)\n (exists (?CONTEST)\n (and\n (instance ?CONTEST ViolentContest)\n (subProcess ?ATTACK ?CONTEST))))"))
([UAX-624] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1461)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?ATTACK Attack)\n (agent ?ATTACK ?AGENT)\n (patient ?ATTACK ?OBJ))\n (hasPurposeForAgent ?ATTACK (exists (?DAMAGE)\n (and\n (instance ?DAMAGE Damaging)\n (patient ?DAMAGE ?OBJ))) ?AGENT))"))
([UAX-625] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1463)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?DEFENSE DefensiveManeuver)\n (exists (?CONTEST)\n (and\n (instance ?CONTEST ViolentContest)\n (subProcess ?DEFENSE ?CONTEST))))"))
([UAX-626] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1464)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DEFENSE DefensiveManeuver)\n (agent ?DEFENSE ?AGENT))\n (hasPurposeForAgent ?DEFENSE (not (exists (?DAMAGE)\n (and\n (instance ?DAMAGE Damaging)\n (patient ?DAMAGE ?AGENT)))) ?AGENT))"))
([UAX-627] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1465)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?MANEUVER Maneuver)\n (instance ?CONTEST ViolentContest)\n (subProcess ?MANEUVER ?CONTEST))\n (or\n (instance ?MANEUVER Attack)\n (instance ?MANEUVER DefensiveManeuver)))"))
([UAX-628] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1467)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?PERCEPT Perception)\n (agent ?PERCEPT ?AGENT))\n (instance ?AGENT Animal))"))
([UAX-629] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1468)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?AGENT SentientAgent)\n (capability Perception experiencer ?AGENT))"))
([UAX-630] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1470)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?SEE Seeing)\n (agent ?SEE ?AGENT)\n (patient ?SEE ?OBJ))\n (and\n (attribute ?OBJ Illuminated)\n (exists (?PROP)\n (and\n (instance ?PROP ColorAttribute)\n (knows ?AGENT (attribute ?OBJ ?PROP))))))"))
([UAX-631] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1473)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?SMELL Smelling)\n (patient ?SMELL ?OBJ))\n (exists (?ATTR)\n (and\n (instance ?ATTR OlfactoryAttribute)\n (attribute ?OBJ ?ATTR))))"))
([UAX-632] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1475)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?TASTE Tasting)\n (patient ?TASTE ?OBJ))\n (exists (?ATTR)\n (and\n (instance ?ATTR TasteAttribute)\n (attribute ?OBJ ?ATTR))))"))
([UAX-633] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1477)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?HEAR Hearing)\n (patient ?HEAR ?OBJ))\n (exists (?ATTR)\n (and\n (instance ?ATTR SoundAttribute)\n (attribute ?OBJ ?ATTR))))"))
([UAX-634] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1480)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?TACTILE TactilePerception)\n (exists (?TOUCH)\n (and\n (instance ?TOUCH Touching)\n (subProcess ?TOUCH ?TACTILE))))"))
([UAX-635] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1483)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(<=>\n (exists (?EMIT)\n (and\n (instance ?EMIT RadiatingLight)\n (patient ?EMIT ?REGION)\n (instance ?REGION Region)))\n (attribute ?REGION Illuminated))"))
([UAX-636] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1485)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?EMIT RadiatingSound)\n (agent ?EMIT ?SOUND))\n (exists (?ATTR)\n (and\n (instance ?ATTR SoundAttribute)\n (attribute ?SOUND ?ATTR))))"))
([UAX-637] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1490)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?PROCESS StateChange)\n (patient ?PROCESS ?OBJ))\n (exists (?PART ?STATE1 ?STATE2)\n (and\n (part ?PART ?OBJ)\n (instance ?STATE1 PhysicalState)\n (instance ?STATE2 PhysicalState)\n (not (equal ?STATE1 ?STATE2))\n (holdsDuring (BeginFn (WhenFn ?PROCESS)) (attribute ?PART ?STATE1))\n (holdsDuring (EndFn (WhenFn ?PROCESS)) (attribute ?PART ?STATE2)))))"))
([UAX-638] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1492)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?MELT Melting)\n (exists (?HEAT)\n (and\n (instance ?HEAT Heating)\n (subProcess ?HEAT ?MELT))))"))
([UAX-639] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1493)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?MELT Melting)\n (patient ?MELT ?OBJ))\n (exists (?PART)\n (and\n (part ?PART ?OBJ)\n (holdsDuring (BeginFn (WhenFn ?MELT)) (attribute ?PART Solid))\n (holdsDuring (EndFn (WhenFn ?MELT)) (attribute ?PART Liquid)))))"))
([UAX-640] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1495)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?BOIL Boiling)\n (exists (?HEAT)\n (and\n (instance ?HEAT Heating)\n (subProcess ?HEAT ?BOIL))))"))
([UAX-641] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1496)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?BOIL Boiling)\n (patient ?BOIL ?OBJ))\n (exists (?PART)\n (and\n (part ?PART ?OBJ)\n (holdsDuring (BeginFn (WhenFn ?BOIL)) (attribute ?PART Liquid))\n (holdsDuring (EndFn (WhenFn ?BOIL)) (attribute ?PART Gas)))))"))
([UAX-642] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1498)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?COND Condensing)\n (exists (?COOL)\n (and\n (instance ?COOL Cooling)\n (subProcess ?COOL ?COND))))"))
([UAX-643] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1499)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?COND Condensing)\n (patient ?COND ?OBJ))\n (exists (?PART)\n (and\n (part ?PART ?OBJ)\n (holdsDuring (BeginFn (WhenFn ?COND)) (attribute ?PART Gas))\n (holdsDuring (EndFn (WhenFn ?COND)) (attribute ?PART Liquid)))))"))
([UAX-644] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1501)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (instance ?FREEZE Freezing)\n (exists (?COOL)\n (and\n (instance ?COOL Cooling)\n (subProcess ?COOL ?FREEZE))))"))
([UAX-645] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1502)
(%3AisInModule [PROCESSES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?FREEZE Freezing)\n (patient ?FREEZE ?OBJ))\n (exists (?PART)\n (and\n (part ?PART ?OBJ)\n (holdsDuring (BeginFn (WhenFn ?FREEZE)) (attribute ?PART Liquid))\n (holdsDuring (EndFn (WhenFn ?FREEZE)) (attribute ?PART Solid)))))"))
([UAX-646] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1511)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?AREA GeopoliticalArea)\n (leader (GovernmentFn ?AREA) ?PERSON))\n (leader ?AREA ?PERSON))"))
([UAX-647] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1512)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?AREA GeopoliticalArea)\n (leader ?AREA ?PERSON))\n (leader (GovernmentFn ?AREA) ?PERSON))"))
([UAX-648] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1513)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?EVENT Election)\n (agent ?EVENT ?AGENT)\n (instance ?AGENT GeopoliticalArea))\n (instance ?EVENT PoliticalProcess))"))
([UAX-649] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1514)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?EVENT Election)\n (agent ?EVENT ?AGENT)\n (instance ?AREA GeopoliticalArea)\n (instance ?AGENT (GovernmentFn ?AREA)))\n (instance ?EVENT PoliticalProcess))"))
([UAX-650] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1516)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (geopoliticalSubdivision ?SUB ?AREA)\n (not (instance ?SUB Nation)))"))
([UAX-651] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1518)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?AREA WaterArea)\n (exists (?BED ?HOLE ?WATER)\n (and\n (equal (PrincipalHostFn ?HOLE) ?BED)\n (instance ?WATER Water)\n (properlyFills ?WATER ?HOLE)\n (equal (MereologicalSumFn ?BED ?WATER) ?AREA))))"))
([UAX-652] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1524)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?LAND1 LandArea)\n (exists (?LAND2)\n (and\n (part ?LAND1 ?LAND2)\n (or\n (instance ?LAND2 Continent)\n (instance ?LAND2 Island)))))"))
([UAX-653] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1526)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?BANK ShoreArea)\n (exists (?WATER)\n (and\n (instance ?WATER WaterArea)\n (meetsSpatially ?BANK ?WATER))))"))
([UAX-654] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1528)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(equal (CardinalityFn Continent) 7)"))
([UAX-655] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1530)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?ISLAND Island)\n (not\n (exists (?AREA ?PART1 ?PART2)\n (and\n (instance ?AREA LandArea)\n (part ?PART1 ?ISLAND)\n (part ?PART2 ?AREA)\n (not\n (part ?ISLAND ?AREA))\n (not\n (part ?AREA ?ISLAND))\n (meetsSpatially ?PART1 ?PART2)))))"))
([UAX-656] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1531)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?ISLE Island)\n (instance ?AREA GeographicArea)\n (meetsSpatially ?ISLE ?AREA))\n (not\n (instance ?AREA LandArea)))"))
([UAX-657] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1532)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?ISLE Island)\n (exists (?WATER)\n (and\n (instance ?WATER WaterArea)\n (meetsSpatially ?ISLE ?WATER))))"))
([UAX-658] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1535)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?STATE StateOrProvince)\n (exists (?LAND)\n (and\n (instance ?LAND Nation)\n (properPart ?STATE ?LAND))))"))
([UAX-659] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1539)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?WAY LandTransitway)\n (hasPurpose (exists (?TRANSPORT)\n (and\n (instance ?TRANSPORT Transportation)\n (path ?TRANSPORT ?WAY)))))"))
([UAX-660] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1544)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (holdsDuring ?TIME1 (developmentalForm ?OBJ ?ATTR1))\n (successorAttributeClosure ?ATTR2 ?ATTR1))\n (exists (?TIME2)\n (and\n (earlier ?TIME2 ?TIME1)\n (holdsDuring ?TIME2 (developmentalForm ?OBJ ?ATTR2)))))"))
([UAX-661] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1547)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?ORGANISM Organism)\n (exists (?BIRTH)\n (and\n (instance ?BIRTH Birth)\n (experiencer ?BIRTH ?ORGANISM))))"))
([UAX-662] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1549)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (inhabits ?ORGANISM ?OBJ)\n (exists (?TIME)\n (holdsDuring ?TIME (located ?ORGANISM ?OBJ))))"))
([UAX-663] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1552)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (parent ?CHILD ?PARENT)\n (before (BeginFn (WhenFn ?PARENT)) (BeginFn (WhenFn ?CHILD))))"))
([UAX-664] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1553)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (parent ?CHILD ?PARENT)\n (subclass ?CLASS Organism)\n (instance ?PARENT ?CLASS))\n (instance ?CHILD ?CLASS))"))
([UAX-665] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1554)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (parent ?CHILD ?PARENT)\n (or\n (mother ?CHILD ?PARENT)\n (father ?CHILD ?PARENT)))"))
([UAX-666] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1555)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?ORGANISM Organism)\n (exists (?PARENT)\n (parent ?ORGANISM ?PARENT)))"))
([UAX-667] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1557)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (mother ?CHILD ?MOTHER)\n (attribute ?MOTHER Female))"))
([UAX-668] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1559)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (father ?CHILD ?FATHER)\n (attribute ?FATHER Male))"))
([UAX-669] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1561)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(<=>\n (sibling ?ANIMAL1 ?ANIMAL2)\n (and\n (not (equal ?ANIMAL1 ?ANIMAL2))\n (exists (?FATHER ?MOTHER)\n (and\n (father ?ANIMAL1 ?FATHER)\n (father ?ANIMAL2 ?FATHER)\n (mother ?ANIMAL1 ?MOTHER)\n (mother ?ANIMAL2 ?MOTHER)))))"))
([UAX-670] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1567)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (parent ?PARENT ?CHILD)\n (ancestor ?PARENT ?CHILD))"))
([UAX-671] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1573)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?ALGA Alga)\n (exists (?WATER)\n (and\n (inhabits ?ALGA ?WATER)\n (instance ?WATER Water))))"))
([UAX-672] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1575)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?FUNGUS Fungus)\n (inhabits ?FUNGUS ?OBJ))\n (instance ?OBJ Organism))"))
([UAX-673] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1581)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?BACTERIUM Bacterium)\n (exists (?CELL1)\n (and\n (component ?CELL1 ?BACTERIUM)\n (instance ?CELL1 Cell)\n (forall (?CELL2)\n (=>\n (and\n (component ?CELL2 ?BACTERIUM)\n (instance ?CELL2 Cell))\n (equal ?CELL1 ?CELL2))))))"))
([UAX-674] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1582)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?BACTERIUM Bacterium)\n (inhabits ?BACTERIUM ?OBJ))\n (instance ?OBJ Organism))"))
([UAX-675] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1584)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?VIRUS Virus)\n (exists (?MOL1)\n (and\n (component ?MOL1 ?VIRUS)\n (instance ?MOL1 Molecule)\n (forall (?MOL2)\n (=>\n (and\n (component ?MOL2 ?VIRUS)\n (instance ?MOL2 Molecule))\n (equal ?MOL1 ?MOL2))))))"))
([UAX-676] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1585)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?VIRUS Virus)\n (inhabits ?VIRUS ?OBJ))\n (instance ?OBJ Organism))"))
([UAX-677] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1586)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?VIRUS Virus)\n (instance ?PROC Replication)\n (agent ?PROC ?VIRUS))\n (exists (?CELL)\n (and\n (located ?PROC ?CELL)\n (instance ?CELL Cell))))"))
([UAX-678] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1601)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?FISH Fish)\n (exists (?WATER)\n (and\n (inhabits ?FISH ?WATER)\n (instance ?WATER Water))))"))
([UAX-679] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1607)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?CARNIVORE Carnivore)\n (instance ?EAT Eating)\n (agent ?EAT ?CARNIVORE)\n (patient ?EAT ?PREY))\n (instance ?PREY Animal))"))
([UAX-680] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1628)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?SMOKE Smoke)\n (exists (?BURNING)\n (and\n (instance ?BURNING Combustion)\n (result ?BURNING ?SMOKE))))"))
([UAX-681] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1630)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?CLOUD Cloud)\n (capability Seeing patient ?CLOUD))"))
([UAX-682] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1632)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?CLOUD WaterCloud)\n (exists (?WATER)\n (and\n (instance ?WATER Water)\n (part ?WATER ?CLOUD))))"))
([UAX-683] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1633)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?CLOUD WaterCloud)\n (forall (?PART)\n (=>\n (and\n (part ?PART ?CLOUD)\n (not (instance ?PART Water)))\n (exists (?WATER)\n (and\n (instance ?WATER Water)\n (part ?WATER ?CLOUD)\n (measure ?WATER ?MEASURE1)\n (measure ?PART ?MEASURE2)\n (greaterThan ?WATER ?PART))))))"))
([UAX-684] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1635)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?WIND Wind)\n (exists (?AIR)\n (and\n (patient ?WIND ?AIR)\n (instance ?AIR Air))))"))
([UAX-685] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1638)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?SUBSTANCE AnimalSubstance)\n (instance ?ANIMAL Organism)\n (part ?SUBSTANCE ?ANIMAL))\n (instance ?ANIMAL Animal))"))
([UAX-686] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1640)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?SUBSTANCE PlantSubstance)\n (instance ?PLANT Organism)\n (part ?SUBSTANCE ?PLANT))\n (instance ?PLANT Plant))"))
([UAX-687] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1642)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?HORMONE Hormone)\n (exists (?PROCESS ?GLAND)\n (and\n (instance ?GLAND Gland)\n (instrument ?PROCESS ?GLAND)\n (result ?PROCESS ?HORMONE))))"))
([UAX-688] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1645)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?FOOD Food)\n (exists (?NUTRIENT)\n (and\n (instance ?NUTRIENT Nutrient)\n (part ?NUTRIENT ?FOOD))))"))
([UAX-689] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1646)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?FOOD Food)\n (forall (?PART1)\n (=>\n (part ?PART1 ?FOOD)\n (exists (?PART2 ?ANIMAL)\n (and\n (part ?PART1 ?PART2)\n (part ?PART2 ?ANIMAL)\n (instance ?ANIMAL Animal))))))"))
([UAX-690] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1648)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?MEAT Meat)\n (forall (?PART)\n (=>\n (part ?PART ?MEAT)\n (exists (?SUBPART ?TIME ?ANIMAL)\n (and\n (part ?SUBPART ?PART)\n (holdsDuring ?TIME (and (instance ?ANIMAL Animal) (part ?SUBPART ?ANIMAL))))))))"))
([UAX-691] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1650)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?BEV Beverage)\n (attribute ?BEV Liquid))"))
([UAX-692] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1651)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DRINK Drinking)\n (patient ?DRINK ?BEV))\n (instance ?BEV Beverage))"))
([UAX-693] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1653)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?ANAT AnatomicalStructure)\n (exists (?ORGANISM ?TIME)\n (and\n (instance ?ORGANISM Organism)\n (temporalPart ?TIME (WhenFn ?ORGANISM))\n (holdsDuring ?TIME (part ?ANAT ?ORGANISM)))))"))
([UAX-694] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1654)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?PART AnatomicalStructure)\n (exists (?CELL)\n (and\n (instance ?CELL Cell)\n (part ?CELL ?PART))))"))
([UAX-695] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1656)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?STRUCTURE AbnormalAnatomicalStructure)\n (exists (?PROC)\n (and\n (instance ?PROC PathologicProcess)\n (result ?PROC ?PART))))"))
([UAX-696] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1658)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?PART BodyPart)\n (exists (?ORGANISM ?TIME)\n (and\n (instance ?ORGANISM Organism)\n (temporalPart ?TIME (WhenFn ?ORGANISM))\n (holdsDuring ?TIME (part ?ANAT ?ORGANISM)))))"))
([UAX-697] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1659)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?PART BodyPart)\n (exists (?PROC)\n (and\n (instance ?PROC PhysiologicProcess)\n (result ?PROC ?PART))))"))
([UAX-698] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1661)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?STRUCTURE AnimalAnatomicalStructure)\n (instance ?ANIMAL Organism)\n (part ?STRUCTURE ?ANIMAL))\n (instance ?ANIMAL Animal))"))
([UAX-699] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1663)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?STRUCTURE PlantAnatomicalStructure)\n (instance ?PLANT Organism)\n (part ?STRUCTURE ?PLANT))\n (instance ?PLANT Plant))"))
([UAX-700] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1667)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?SEED Seed)\n (exists (?PLANT ?TIME)\n (and\n (instance ?PLANT FloweringPlant)\n (holdsDuring ?TIME (part ?SEED ?PLANT)))))"))
([UAX-701] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1671)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?SPORE Spore)\n (exists (?PLANT ?TIME)\n (and\n (instance ?PLANT NonFloweringPlant)\n (holdsDuring ?TIME (part ?SPORE ?PLANT)))))"))
([UAX-702] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1673)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?COVER BodyCovering)\n (exists (?BODY)\n (and\n (superficialPart ?COVER ?BODY)\n (or\n (instance ?BODY Organism)\n (instance ?BODY BodyPart)))))"))
([UAX-703] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1675)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?JUNCT BodyJunction)\n (exists (?STRUCT)\n (and\n (instance ?STRUCT BodyPart)\n (component ?JUNCT ?STRUCT))))"))
([UAX-704] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1676)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?JUNCT BodyJunction)\n (exists (?STRUCT1 ?STRUCT2)\n (and\n (connected ?JUNCT ?STRUCT1)\n (connected ?JUNCT ?STRUCT2)\n (instance ?STRUCT1 BodyPart)\n (instance ?STRUCT2 BodyPart)\n (not\n (equal ?STRUCT1 ?STRUCT2)))))"))
([UAX-705] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1680)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?ORGAN Organ)\n (exists (?PURP)\n (hasPurpose ?ORGAN ?PURP)))"))
([UAX-706] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1683)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?STUFF Tissue)\n (exists (?PART)\n (and\n (instance ?PART Cell)\n (part ?PART ?STUFF))))"))
([UAX-707] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1684)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?STUFF Tissue)\n (exists (?ORGANISM)\n (and\n (instance ?ORGANISM Organism)\n (part ?STUFF ?ORGANISM))))"))
([UAX-708] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1686)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?BONE Bone)\n (exists (?VERT)\n (and\n (instance ?VERT Vertebrate)\n (part ?BONE ?VERT))))"))
([UAX-709] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1695)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?MORPH Morpheme)\n (not\n (exists (?OTHERMORPH)\n (and\n (instance ?OTHERMORPH Morpheme)\n (part ?OTHERMORPH ?MORPH)\n (not (equal ?OTHERMORPH ?MORPH))))))"))
([UAX-710] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1696)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?MORPH Morpheme)\n (exists (?WORD)\n (and\n (instance ?WORD Word)\n (part ?MORPH ?WORD))))"))
([UAX-711] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1697)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?WORD Word)\n (exists (?PART)\n (and\n (part ?PART ?WORD)\n (instance ?PART Morpheme))))"))
([UAX-712] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1699)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?PHRASE Phrase)\n (exists (?PART1 ?PART2)\n (and\n (part ?PART1 ?PHRASE)\n (part ?PART2 ?PHRASE)\n (instance ?PART1 Word)\n (instance ?PART2 Word)\n (not (equal ?PART1 ?PART2)))))"))
([UAX-713] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1701)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?PHRASE VerbPhrase)\n (exists (?VERB)\n (and\n (instance ?VERB Verb)\n (part ?VERB ?PHRASE))))"))
([UAX-714] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1703)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?SENTENCE Sentence)\n (exists (?PHRASE1 ?PHRASE2)\n (and\n (instance ?PHRASE1 NounPhrase)\n (instance ?PHRASE2 VerbPhrase)\n (part ?PHRASE1 ?SENTENCE)\n (part ?PHRASE2 ?SENTENCE))))"))
([UAX-715] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1704)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?PHRASE NounPhrase)\n (exists (?NOUN)\n (and\n (instance ?NOUN Noun)\n (part ?NOUN ?PHRASE))))"))
([UAX-716] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1706)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?PHRASE PrepositionalPhrase)\n (exists (?PREP)\n (and\n (instance ?PREP Particle)\n (part ?PREP ?PHRASE))))"))
([UAX-717] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1708)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?TEXT Text)\n (exists (?PART)\n (and\n (part ?PART ?TEXT)\n (instance ?PART LinguisticExpression))))"))
([UAX-718] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1709)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?TEXT Text)\n (exists (?WRITE)\n (and\n (instance ?WRITE Writing)\n (result ?WRITE ?TEXT))))"))
([UAX-719] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1711)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?TEXT FactualText)\n (authors ?AGENT ?TEXT)\n (subsumesContentInstance ?TEXT ?CONTENT)\n (instance ?CONTENT Formula))\n (believes ?AGENT ?CONTENT))"))
([UAX-720] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1713)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?TEXT FactualText)\n (authors ?AGENT ?TEXT))\n (exists (?CONTENT)\n (and\n (subsumesContentInstance ?TEXT ?CONTENT)\n (instance ?CONTENT Formula)\n (not (believes ?AGENT ?CONTENT)))))"))
([UAX-721] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1715)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?SENT Sentence)\n (exists (?NOUN ?VERB)\n (and\n (instance ?NOUN NounPhrase)\n (instance ?VERB VerbPhrase)\n (part ?NOUN ?SENT)\n (part ?VERB ?SENT))))"))
([UAX-722] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1716)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?SENT Sentence)\n (exists (?PROP)\n (and\n (instance ?PROP Proposition)\n (containsInformation ?SENT ?PROP))))"))
([UAX-723] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1718)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (authors ?AGENT ?TEXT)\n (exists (?PROCESS ?INSTANCE)\n (and\n (agent ?PROCESS ?AGENT)\n (instance ?INSTANCE ?TEXT)\n (result ?PROCESS ?TEXT))))"))
([UAX-724] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1721)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(<=>\n (publishes ?ORG ?TEXT)\n (exists (?PUB)\n (and\n (instance ?PUB Publication)\n (agent ?PUB ?ORG)\n (patient ?PUB ?TEXT))))"))
([UAX-725] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1723)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (equal (EditionFn ?TEXT ?INT1) ?EDITION1)\n (equal (EditionFn ?TEXT ?INT2) ?EDITION2)\n (greaterThan ?INT2 ?INT1)\n (instance ?PUB1 Publication)\n (instance ?PUB2 Publication)\n (patient ?PUB1 ?EDITION1)\n (patient ?PUB2 ?EDITION2)\n (date ?PUB1 ?DATE1)\n (date ?PUB2 ?DATE2))\n (before (EndFn ?DATE1) (EndFn ?DATE2)))"))
([UAX-726] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1724)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (equal (EditionFn ?TEXT1 ?NUMBER) ?TEXT2)\n (subsumesContentClass ?TEXT1 ?TEXT2))"))
([UAX-727] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1726)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (subclass ?TEXT Periodical)\n (equal (SeriesVolumeFn ?TEXT ?INT1) ?VOLUME1)\n (equal (SeriesVolumeFn ?TEXT ?INT2) ?VOLUME2)\n (greaterThan ?INT2 ?INT1)\n (instance ?PUB1 Publication)\n (instance ?PUB2 Publication)\n (patient ?PUB1 ?VOLUME1)\n (patient ?PUB2 ?VOLUME2)\n (date ?PUB1 ?DATE1)\n (date ?PUB2 ?DATE2))\n (before (EndFn ?DATE1) (EndFn ?DATE2)))"))
([UAX-728] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1727)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (equal (SeriesVolumeFn ?SERIES ?NUMBER) ?VOLUME)\n (subsumesContentClass ?SERIES ?VOLUME))"))
([UAX-729] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1729)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (equal (PeriodicalIssueFn ?PERIODICAL ?NUMBER) ?ISSUE)\n (subsumesContentClass ?PERIODICAL ?ISSUE))"))
([UAX-730] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1732)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?TEXT Summary)\n (exists (?TEXT2)\n (and\n (instance ?TEXT2 Text)\n (subsumesContentInstance ?TEXT2 ?TEXT))))"))
([UAX-731] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1734)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?SERIES Series)\n (exists (?BOOK1 ?BOOK2)\n (and\n (instance ?BOOK1 Book)\n (instance ?BOOK2 Book)\n (subsumesContentInstance ?SERIES ?BOOK1)\n (subsumesContentInstance ?SERIES ?BOOK2)\n (not (equal ?BOOK1 ?BOOK2)))))"))
([UAX-732] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1737)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?ARTICLE1 Article)\n (instance ?BOOK Book)\n (subsumesContentInstance ?BOOK ?ARTICLE1))\n (exists (?ARTICLE2)\n (and\n (instance ?ARTICLE2 Article)\n (not (equal ?ARTICLE2 ?ARTICLE1))\n (subsumesContentInstance ?BOOK ?ARTICLE2))))"))
([UAX-733] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1739)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DOC Certificate)\n (possesses ?AGENT ?DOC))\n (exists (?PROC)\n (or\n (confersRight ?PROC ?DOC ?AGENT)\n (confersObligation ?PROC ?DOC ?AGENT))))"))
([UAX-734] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1742)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?CURRENCY Currency)\n (exists (?MEASURE)\n (monetaryValue ?CURRENCY ?MEASURE)))"))
([UAX-735] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1744)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?BILL CurrencyBill)\n (exists (?PAPER)\n (and\n (instance ?PAPER Paper)\n (part ?PAPER ?BILL))))"))
([UAX-736] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1746)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?COIN CurrencyCoin)\n (exists (?METAL)\n (and\n (subclass ?METAL Metal)\n (material ?METAL ?COIN))))"))
([UAX-737] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1749)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?MOLE Molecule)\n (exists (?ATOM1 ?ATOM2)\n (and\n (instance ?ATOM1 Atom)\n (instance ?ATOM2 Atom)\n (part ?ATOM1 ?MOLE)\n (part ?ATOM2 ?MOLE)\n (not\n (equal ?ATOM1 ?ATOM2)))))"))
([UAX-738] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1751)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(<=>\n (instance ?ARTIFACT Artifact)\n (exists (?MAKING)\n (and\n (instance ?MAKING Making)\n (result ?MAKING ?ARTIFACT))))"))
([UAX-739] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1753)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?PRODUCT Product)\n (exists (?MANUFACTURE)\n (and\n (instance ?MANUFACTURE Manufacture)\n (result ?MANUFACTURE ?PRODUCT))))"))
([UAX-740] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1755)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (version ?ARTIFACT1 ?ARTIFACT2)\n (subclass ?ARTIFACT1 ?ARTIFACT2))"))
([UAX-741] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1758)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?ARTIFACT StationaryArtifact)\n (exists (?PLACE)\n (holdsDuring (WhenFn ?ARTIFACT) (located ?ARTIFACT ?PLACE))))"))
([UAX-742] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1760)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?BUILDING Building)\n (exists (?HUMAN)\n (and\n (instance ?HUMAN Human)\n (or\n (inhabits ?HUMAN ?BUILDING)\n (exists (?ACT)\n (and\n (agent ?ACT ?HUMAN)\n (located ?ACT ?BUILDING)))))))"))
([UAX-743] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1762)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?ROOM Room)\n (exists (?BUILD)\n (and\n (instance ?BUILD Building)\n (properPart ?ROOM ?BUILD))))"))
([UAX-744] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1764)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?RESIDENCE Residence)\n (or\n (instance ?RESIDENCE House)\n (exists (?BUILDING)\n (and\n (instance ?BUILDING ResidentialBuilding)\n (part ?RESIDENCE ?BUILDING)))))"))
([UAX-745] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1766)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?RESIDENCE PermanentResidence)\n (exists (?PERSON)\n (home ?PERSON ?HOTEL)))"))
([UAX-746] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1768)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?RESIDENCE TemporaryResidence)\n (not (exists (?PERSON)\n (home ?PERSON ?HOTEL))))"))
([UAX-747] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1772)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?RESIDENCE SingleFamilyResidence)\n (hasPurpose ?RESIDENCE (forall (?AGENT1 ?AGENT2)\n (=>\n (and\n (home ?AGENT1 ?RESIDENCE)\n (home ?AGENT2 ?RESIDENCE))\n (exists (?UNIT)\n (and\n (instance ?UNIT SocialUnit)\n (member ?AGENT1 ?UNIT)\n (member ?AGENT2 ?UNIT)))))))"))
([UAX-748] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1777)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?CLOTHING Clothing)\n (exists (?FABRIC)\n (and\n (instance ?FABRIC Fabric)\n (part ?FABRIC ?CLOTHING))))"))
([UAX-749] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1779)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (wears ?AGENT ?CLOTHING)\n (located ?CLOTHING ?AGENT))"))
([UAX-750] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1781)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?DEVICE Device)\n (exists (?PROC)\n (capability ?PROC instrument ?DEVICE)))"))
([UAX-751] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1782)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?DEVICE Device)\n (exists (?PROC)\n (hasPurpose ?DEVICE (exists (?INST)\n (and\n (instance ?INST ?PROC)\n (instrument ?INST ?DEVICE))))))"))
([UAX-752] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1784)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?INSTRUMENT MusicalInstrument)\n (capability Music instrument ?INSTRUMENT))"))
([UAX-753] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1786)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?DEVICE TransportationDevice)\n (capability Transportation instrument ?DEVICE))"))
([UAX-754] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1788)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?TRANSPORT Vehicle)\n (instance ?MOVE Translocation)\n (instrument ?MOVE ?TRANSPORT)\n (origin ?MOVE ?FROM))\n (holdsDuring (BeginFn (WhenFn ?MOVE)) (located ?TRANSPORT ?FROM)))"))
([UAX-755] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1789)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?TRANSPORT Vehicle)\n (instance ?MOVE Translocation)\n (instrument ?MOVE ?TRANSPORT)\n (destination ?MOVE ?TO))\n (holdsDuring (BeginFn (WhenFn ?MOVE)) (located ?TRANSPORT ?TO)))"))
([UAX-756] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1791)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?DEVICE MeasuringDevice)\n (hasPurpose ?DEVICE (exists (?MEASURE)\n (and\n (instance ?MEASURE Measuring)\n (instrument ?MEASURE ?DEVICE)))))"))
([UAX-757] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1793)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?DEVICE AttachingDevice)\n (exists (?ATTACH)\n (and\n (instance ?ATTACH Attaching)\n (instrument ?ATTACH ?DEVICE))))"))
([UAX-758] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1795)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?WEAPON Weapon)\n (capability Damaging instrument ?WEAPON))"))
([UAX-759] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1796)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?WEAPON Weapon)\n (hasPurpose ?WEAPON\n (exists (?DEST ?PATIENT)\n (and\n (instance ?DEST Damaging)\n (patient ?DEST ?PATIENT)\n (or\n (instance ?PATIENT StationaryArtifact)\n (instance ?PATIENT Animal)\n (exists (?ANIMAL)\n (and\n (instance ?ANIMAL Animal)\n (inhabits ?ANIMAL ?PATIENT))))))))"))
([UAX-760] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1798)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?MACHINE Machine)\n (forall (?PROC)\n (=>\n (instrument ?PROC ?MACHINE)\n (exists (?RESOURCE ?RESULT)\n (and\n (resource ?PROC ?RESOURCE)\n (result ?PROC ?RESULT))))))"))
([UAX-761] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1799)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?MACHINE Machine)\n (exists (?COMP1 ?COMP2)\n (and\n (instance ?COMP1 EngineeringComponent)\n (instance ?COMP2 EngineeringComponent)\n (not (equal ?COMP1 ?COMP2))\n (part ?COMP1 ?MACHINE)\n (part ?COMP2 ?MACHINE))))"))
([UAX-762] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1801)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?COMP EngineeringComponent)\n (exists (?DEVICE)\n (and\n (instance ?DEVICE Device)\n (component ?COMP ?DEVICE))))"))
([UAX-763] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1804)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (connectedEngineeringComponents ?COMP1 ?COMP2)\n (and\n (not\n (engineeringSubcomponent ?COMP1 ?COMP2))\n (not\n (engineeringSubcomponent ?COMP2 ?COMP1))))"))
([UAX-764] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1805)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (connectedEngineeringComponents ?COMP1 ?COMP2)\n (not\n (or\n (instance ?COMP1 EngineeringConnection)\n (instance ?COMP2 EngineeringConnection))))"))
([UAX-765] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1806)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(<=>\n (connectedEngineeringComponents ?COMP1 ?COMP2)\n (exists (?CONNECTION)\n (connectsEngineeringComponents ?CONNECTION ?COMP1 ?COMP2)))"))
([UAX-766] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1808)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?CONNECTION EngineeringConnection)\n (exists (?COMP1 ?COMP2)\n (connectsEngineeringComponents ?CONNECTION ?COMP1 ?COMP2)))"))
([UAX-767] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1814)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?ORG Manufacturer)\n (hasPurpose (exists (?MANUFACTURE)\n (and\n (instance ?MANUFACTURE Manufacturing)\n (instance ?MANUFACTURE CommercialService)\n (agent ?MANUFACTURE ?ORG)))))"))
([UAX-768] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1816)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?ORG MercantileOrganization)\n (hasPurpose (exists (?SELL)\n (and\n (instance ?SELL Selling)\n (instance ?SELL CommercialService)\n (agent ?SELL ?ORG)))))"))
([UAX-769] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1818)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?GROUP Group)\n (member ?MEMB ?GROUP))\n (instance ?MEMB Agent))"))
([UAX-770] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1820)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?GROUP GroupOfPeople)\n (member ?MEMBER ?GROUP))\n (instance ?MEMBER Human))"))
([UAX-771] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1822)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?GROUP AgeGroup)\n (forall (?MEMB1 ?MEMB2 ?AGE1 ?AGE2)\n (=>\n (and\n (member ?MEMB1 ?GROUP)\n (member ?MEMB2 ?GROUP)\n (age ?MEMB1 ?AGE1)\n (age ?MEMB2 ?AGE2))\n (equal ?AGE1 ?AGE2))))"))
([UAX-772] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1824)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?GROUP FamilyGroup)\n (forall (?MEMB1 ?MEMB2)\n (=>\n (and\n (member ?MEMB1 ?GROUP)\n (member ?MEMB2 ?GROUP))\n (familyRelation ?MEMB1 ?MEMB2))))"))
([UAX-773] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1826)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?UNIT SocialUnit)\n (exists (?HOME)\n (=>\n (member ?MEMBER ?UNIT)\n (home ?MEMBER ?HOME))))"))
([UAX-774] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1828)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?PERSON Human)\n (equal (ImmediateFamilyFn ?PERSON) ?FAMILY))\n (forall (?MEMBER)\n (<=>\n (member ?MEMBER ?FAMILY)\n (or\n (parent ?MEMBER ?PERSON)\n (parent ?PERSON ?MEMBER)))))"))
([UAX-775] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1830)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (familyRelation ?ORGANISM1 ?ORGANISM2)\n (exists (?ORGANISM3)\n (and\n (familyRelation ?ORGANISM3 ?ORGANISM1)\n (familyRelation ?ORGANISM3 ?ORGANISM2))))"))
([UAX-776] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1832)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (legalRelation ?AGENT1 ?AGENT2)\n (exists (?DECLARE ?OBLIGATION)\n (and\n (instance ?DECLARE Declaring)\n (confersObligation ?OBLIGATION ?DECLARE ?AGENT1)\n (confersObligation ?OBLIGATION ?DECLARE ?AGENT2))))"))
([UAX-777] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1838)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?GROUP BeliefGroup)\n (exists (?BELIEF)\n (forall (?MEMB)\n (=>\n (member ?MEMB ?GROUP)\n (believes ?MEMB ?BELIEF)))))"))
([UAX-778] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1840)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?ORG Organization)\n (exists (?PURP)\n (forall (?MEMBER)\n (=>\n (member ?MEMBER ?ORG)\n (hasPurpose ?MEMBER ?PURP)))))"))
([UAX-779] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1841)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?ORG Organization)\n (member ?AGENT ?ORG))\n (instance ?AGENT Agent))"))
([UAX-780] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1843)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (employs ?ORG ?PERSON)\n (member ?PERSON ?ORG))"))
([UAX-781] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1845)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (instance ?POL PoliticalOrganization)\n (exists (?PROC)\n (and\n (instance ?PROC PoliticalProcess)\n (agent ?PROC ?POL))))"))
([UAX-782] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1847)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(<=>\n (instance ?ORG GovernmentOrganization)\n (or\n (instance ?ORG Government)\n (exists (?GOV)\n (and\n (instance ?GOV Government)\n (subOrganization ?ORG ?GOV)))))"))
([UAX-783] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1853)
(%3AisInModule [OBJECTS])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?ORG JudicialOrganization)\n (subOrganization ?ORG ?GOV)\n (instance ?GOV GovernmentOrganization))\n (instance ?ORG GovernmentOrganization))"))
([UAX-784] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1866)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?PLAN Plan)\n (instance ?OBJ ContentBearingObject)\n (containsInformation ?OBJ ?PLAN))\n (exists (?PLANNING)\n (and\n (instance ?PLANNING Planning)\n (result ?PLANNING ?OBJ))))"))
([UAX-785] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1867)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (instance ?PLAN Plan)\n (exists (?PURP)\n (hasPurpose ?PLAN ?PURP)))"))
([UAX-786] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1869)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (instance ?REASON Reasoning)\n (exists (?ARGUMENT)\n (and\n (instance ?ARGUMENT Argument)\n (realization ?REASON ?ARGUMENT))))"))
([UAX-787] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1870)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (instance ?ARGUMENT Argument)\n (exists (?PREMISES ?CONCLUSION)\n (and\n (equal (PremisesFn ?ARGUMENT) ?PREMISES)\n (conclusion ?CONCLUSION ?ARGUMENT))))"))
([UAX-788] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1873)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?ARGUMENT ValidDeductiveArgument)\n (equal ?PREMISES (PremisesFn ?ARGUMENT))\n (conclusion ?CONCLUSION ?ARGUMENT))\n (exists (?FORMULA1 ?FORMULA2)\n (and\n (containsInformation ?FORMULA1 ?PREMISES)\n (containsInformation ?FORMULA2 ?CONCLUSION)\n (entails ?PREMISES ?CONCLUSION))))"))
([UAX-789] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1878)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?ARGUMENT Argument)\n (equal ?PREMISES (PremisesFn ?ARGUMENT)))\n (<=>\n (subProposition ?PROPOSITION ?PREMISES)\n (premise ?ARGUMENT ?PROPOSITION)))"))
([UAX-790] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1882)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (and\n (orientation ?OBJ1 ?OBJ2 ?ATTR1)\n (contraryAttribute @ROW)\n (inList ?ATTR1 (ListFn @ROW))\n (inList ?ATTR2 (ListFn @ROW))\n (not (equal ?ATTR1 ?ATTR2)))\n (not\n (orientation ?OBJ1 ?OBJ2 ?ATTR2)))"))
([UAX-791] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1884)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (holdsDuring ?TIME (direction ?PROC ?ATTR1))\n (forall (?ATTR2)\n (=>\n (holdsDuring ?TIME (direction ?PROC ?ATTR2))\n (equal ?ATTR2 ?ATTR1))))"))
([UAX-792] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1886)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (holdsDuring ?TIME (faces ?PROC ?ATTR1))\n (forall (?ATTR2)\n (=>\n (holdsDuring ?TIME (faces ?PROC ?ATTR2))\n (equal ?ATTR2 ?ATTR1))))"))
([UAX-793] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1888)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (and\n (property ?ITEM ?VALUE)\n (instance ?VALUE TruthValue))\n (or\n (instance ?ITEM Sentence)\n (instance ?ITEM Proposition)))"))
([UAX-794] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1892)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (property ?FORMULA Likely)\n (greaterThan (ProbabilityFn (true ?FORMULA True)) (ProbabilityFn (true ?FORMULA False))))"))
([UAX-795] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1894)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (property ?FORMULA Unlikely)\n (greaterThan (ProbabilityFn (true ?FORMULA False)) (ProbabilityFn (true ?FORMULA True))))"))
([UAX-796] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1898)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (and\n (orientation ?OBJ1 ?OBJ2 ?ATTR1)\n (instance ?ATTR1 DirectionalAttribute)\n (instance ?ATTR2 DirectionalAttribute)\n (not\n (equal ?ATTR1 ?ATTR2)))\n (not\n (orientation ?OBJ1 ?OBJ2 ?ATTR2)))"))
([UAX-797] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1899)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?DIRECT DirectionalAttribute)\n (orientation ?OBJ1 ?OBJ2 ?DIRECT)\n (orientation ?OBJ2 ?OBJ3 ?DIRECT))\n (between ?OBJ1 ?OBJ2 ?OBJ33))"))
([UAX-798] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1902)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(<=>\n (orientation ?OBJ1 ?OBJ2 North)\n (orientation ?OBJ2 ?OBJ1 South))"))
([UAX-799] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1905)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(<=>\n (orientation ?OBJ1 ?OBJ2 East)\n (orientation ?OBJ2 ?OBJ1 West))"))
([UAX-800] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1907)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(<=>\n (orientation ?OBJ1 ?OBJ2 Vertical)\n (orientation ?OBJ2 ?OBJ1 Vertical))"))
([UAX-801] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1909)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(<=>\n (orientation ?OBJ1 ?OBJ2 Horizontal)\n (orientation ?OBJ2 ?OBJ1 Horizontal))"))
([UAX-802] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1911)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (orientation ?OBJ1 ?OBJ2 Above)\n (not\n (connected ?OBJ1 ?OBJ2)))"))
([UAX-803] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1913)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(<=>\n (orientation ?OBJ1 ?OBJ2 Below)\n (or\n (orientation ?OBJ2 ?OBJ1 On)\n (orientation ?OBJ2 ?OBJ1 Above)))"))
([UAX-804] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1915)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(<=>\n (orientation ?OBJ1 ?OBJ2 Adjacent)\n (or\n (orientation ?OBJ1 ?OBJ2 Near)\n (connected ?OBJ1 ?OBJ2)))"))
([UAX-805] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1918)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(<=>\n (orientation ?OBJ1 ?OBJ2 Right)\n (orientation ?OBJ2 ?OBJ1 Left))"))
([UAX-806] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1920)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (orientation ?OBJ1 ?OBJ2 Near)\n (not\n (connected ?OBJ1 ?OBJ2)))"))
([UAX-807] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1921)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (orientation ?OBJ1 ?OBJ2 Near)\n (orientation ?OBJ2 ?OBJ1 Near))"))
([UAX-808] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1923)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (orientation ?OBJ1 ?OBJ2 On)\n (connected ?OBJ1 ?OBJ2))"))
([UAX-809] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1924)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (orientation ?OBJ1 ?OBJ2 On)\n (located ?OBJ1 ?OBJ2))"))
([UAX-810] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1925)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (orientation ?OBJ1 ?OBJ2 On)\n (not\n (orientation ?OBJ2 ?OBJ1 On)))"))
([UAX-811] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1929)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (equal (RelativeTimeFn ?TIME1 PacificTimeZone) ?TIME2)\n (equal ?TIME2 (AdditionFn ?TIME1 8)))"))
([UAX-812] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1931)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (equal (RelativeTimeFn ?TIME1 MountainTimeZone) ?TIME2)\n (equal ?TIME2 (AdditionFn ?TIME1 7)))"))
([UAX-813] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1933)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (equal (RelativeTimeFn ?TIME1 CentralTimeZone) ?TIME2)\n (equal ?TIME2 (AdditionFn ?TIME1 6)))"))
([UAX-814] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1935)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (equal (RelativeTimeFn ?TIME1 EasternTimeZone) ?TIME2)\n (equal ?TIME2 (AdditionFn ?TIME1 5)))"))
([UAX-815] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1938)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (and\n (attribute ?PERSON ?ATTRIBUTE)\n (instance ?ATTRIBUTE SocialRole))\n (instance ?PERSON Human))"))
([UAX-816] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1940)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(<=>\n (forall (?ORG)\n (not (employs ?ORG ?PERSON)))\n (attribute ?PERSON Unemployed))"))
([UAX-817] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1943)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (occupiesPosition ?AGENT ?POSITION ?ORG)\n (attribute ?AGENT ?POSITION))"))
([UAX-818] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1944)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(<=>\n (employs ?ORG ?PERSON)\n (exists (?POSITION)\n (occupiesPosition ?PERSON ?POSITION ?ORG)))"))
([UAX-819] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1947)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (and\n (modalAttribute ?FORMULA1 ?PROP)\n (entails ?FORMULA1 ?FORMULA2))\n (modalAttribute ?FORMULA2 ?PROP))"))
([UAX-820] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1948)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (modalAttribute ?FORMULA Obligation)\n (exists (?AGENT)\n (holdsObligation ?FORMULA ?AGENT)))"))
([UAX-821] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1949)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (modalAttribute ?FORMULA Permission)\n (exists (?AGENT)\n (holdsRight ?FORMULA ?AGENT)))"))
([UAX-822] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1950)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (holdsRight ?FORMULA ?AGENT)\n (modalAttribute ?FORMULA Possibility))"))
([UAX-823] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1951)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (holdsObligation ?FORMULA ?AGENT)\n (modalAttribute ?FORMULA Obligation))"))
([UAX-824] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1955)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (and\n (property ?THING ?ATTR)\n (instance ?ATTR ContestAttribute))\n (exists (?CONTEST)\n (and\n (instance ?CONTEST Contest)\n (or\n (agent ?CONTEST ?THING)\n (patient ?CONTEST ?THING)\n (subProcess ?THING ?CONTEST)))))"))
([UAX-825] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1959)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(<=>\n (modalAttribute ?FORMULA Necessity)\n (not (modalAttribute (not ?FORMULA) Possibility)))"))
([UAX-826] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1960)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (modalAttribute ?FORMULA Necessity)\n (modalAttribute ?FORMULA Possibility))"))
([UAX-827] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1964)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(<=>\n (modalAttribute ?FORMULA Obligation)\n (not (modalAttribute (not ?FORMULA) Permission)))"))
([UAX-828] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1965)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (modalAttribute ?FORMULA Obligation)\n (modalAttribute ?FORMULA Permission))"))
([UAX-829] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1968)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (property ?ENTITY Promise)\n (or\n (property ?ENTITY Contract)\n (property ?ENTITY NakedPromise)))"))
([UAX-830] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1978)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (instance ?OBJ Solution)\n (attribute ?OBJ Liquid))"))
([UAX-831] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1979)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?MOTION LiquidMotion)\n (patient ?MOTION ?OBJ))\n (attribute ?OBJ Liquid))"))
([UAX-832] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1981)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(<=>\n (instance ?OBJ Substance)\n (exists (?ATTR)\n (and\n (instance ?ATTR PhysicalState)\n (attribute ?OBJ ?ATTR))))"))
([UAX-833] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1982)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?MOTION GasMotion)\n (patient ?MOTION ?OBJ))\n (attribute ?OBJ Gas))"))
([UAX-834] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1984)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?PERCEPTION Perception)\n (patient ?PERCEPTION ?OBJ))\n (exists (?PROP)\n (and\n (instance ?PROP PerceptualAttribute)\n (attribute ?OBJ ?PROP))))"))
([UAX-835] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1986)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (instance ?OBJ Food)\n (exists (?ATTR)\n (and\n (instance ?ATTR TasteAttribute)\n (attribute ?OBJ ?ATTR))))"))
([UAX-836] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 1999)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (and\n (attribute ?OBJ Monochromatic)\n (superficialPart ?PART ?OBJ)\n (attribute ?PART ?COLOR)\n (instance ?COLOR PrimaryColor))\n (forall (?ELEMENT)\n (=>\n (superficialPart ?ELEMENT ?OBJ)\n (attribute ?ELEMENT ?COLOR))))"))
([UAX-837] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2000)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (instance ?OBJ Object)\n (or\n (attribute ?OBJ Monochromatic)\n (attribute ?OBJ Polychromatic)))"))
([UAX-838] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2002)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (attribute ?OBJ Polychromatic)\n (exists (?PART1 ?PART2 ?COLOR1 ?COLOR2)\n (and\n (superficialPart ?PART1 ?OBJ)\n (superficialPart ?PART2 ?OBJ)\n (attribute ?PART1 ?COLOR1)\n (attribute ?PART2 ?COLOR2)\n (instance ?COLOR1 ColorAttribute)\n (instance ?COLOR2 ColorAttribute)\n (not (equal ?COLOR1 ?COLOR2)))))"))
([UAX-839] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2005)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (exists (?CHANGE)\n (and\n (instance ?CHANGE ShapeChange)\n (patient ?CHANGE ?OBJ)))\n (attribute ?OBJ Pliable))"))
([UAX-840] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2007)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (instance ?OBJ SelfConnectedObject)\n (or\n (attribute ?OBJ Pliable)\n (attribute ?OBJ Rigid)))"))
([UAX-841] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2015)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (instance ?ANGLE RightAngle)\n (angularMeasure ?ANGLE (MeasureFn 90 AngularDegree)))"))
([UAX-842] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2018)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (instance ?POLYGON Polygon)\n (=>\n (geometricPart ?PART ?POLYGON)\n (or\n (sideOfFigure ?PART ?POLYGON)\n (exists (?SIDE)\n (and\n (sideOfFigure ?SIDE ?POLYGON)\n (geometricPart ?PART ?SIDE))))))"))
([UAX-843] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2020)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (instance ?TRIANGLE Triangle)\n (equal (CardinalityFn (KappaFn ?SIDE (sideOfFigure ?SIDE ?TRIANGLE))) 3))"))
([UAX-844] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2022)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (instance ?QUAD Quadrilateral)\n (equal (CardinalityFn (KappaFn ?SIDE (sideOfFigure ?SIDE ?QUAD))) 4))"))
([UAX-845] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2024)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (instance ?RECTANGLE Rectangle)\n (=>\n (angleOfFigure ?ANGLE ?RECTANGLE)\n (instance ?ANGLE RightAngle)))"))
([UAX-846] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2026)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (instance ?SQUARE Square)\n (exists (?LENGTH)\n (forall (?SIDE)\n (=>\n (sideOfFigure ?SIDE ?SQUARE)\n (lineMeasure ?SIDE ?LENGTH)))))"))
([UAX-847] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2028)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (instance ?CIRCLE Circle)\n (exists (?RADIUS)\n (radius ?CIRCLE ?RADIUS)))"))
([UAX-848] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2035)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (pointOfIntersection ?FIGURE1 ?FIGURE2 ?POINT)\n (and\n (pointOfFigure ?POINT ?FIGURE1)\n (pointOfFigure ?POINT ?FIGURE2)))"))
([UAX-849] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2037)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (parallel ?LINE1 ?LINE2)\n (not (exists (?POINT)\n (pointOfIntersection ?LINE1 ?LINE2 ?POINT))))"))
([UAX-850] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2041)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (geometricDistance ?POINT1 ?POINT2 ?LENGTH)\n (geometricDistance ?POINT2 ?POINT1 ?LENGTH))"))
([UAX-851] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2043)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (radius ?CIRCLE ?RADIUS)\n (exists (?POINT)\n (forall (?PART)\n (=>\n (pointOfFigure ?PART ?CIRCLE)\n (geometricDistance ?PART ?POINT ?RADIUS)))))"))
([UAX-852] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2045)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (diameter ?CIRCLE ?LENGTH)\n (exists (?HALF)\n (and\n (radius ?CIRCLE ?HALF)\n (equal (MultiplicationFn ?HALF 2) ?LENGTH))))"))
([UAX-853] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2047)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (tangent ?LINE ?CIRCLE)\n (exists (?POINT1)\n (and\n (pointOfFigure ?POINT1 ?LINE)\n (pointOfFigure ?POINT1 ?CIRCLE)\n (forall (?POINT2)\n (=>\n (and\n (pointOfFigure ?POINT2 ?LINE)\n (pointOfFigure ?POINT2 ?CIRCLE))\n (equal ?POINT1 ?POINT2))))))"))
([UAX-854] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2049)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?ATTRIBUTE TextureAttribute)\n (attribute ?OBJ ?ATTRIBUTE)\n (surface ?SURFACE ?OBJ))\n (attribute ?SURFACE ?ATTRIBUTE))"))
([UAX-855] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2053)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (attribute ?OBJ Dry)\n (not\n (exists (?SUBOBJ)\n (and\n (part ?SUBOBJ ?OBJ)\n (attribute ?SUBOBJ Liquid)))))"))
([UAX-856] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2056)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (attribute ?OBJ Wet)\n (forall (?PART)\n (=>\n (part ?PART ?OBJ)\n (exists (?SUBPART)\n (and\n (part ?SUBPART ?PART)\n (attribute ?SUBPART Liquid))))))"))
([UAX-857] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2060)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (attribute ?OBJ Unbreakable)\n (not (exists (?DAMAGE)\n (and\n (instance ?DAMAGE Damaging)\n (patient ?DAMAGE ?OBJ)))))"))
([UAX-858] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2062)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (and\n (attribute ?ORG ?ATT)\n (instance ?ATT BiologicalAttribute))\n (instance ?ORG Organism))"))
([UAX-859] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2064)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (instance ?ANIMAL Animal)\n (or\n (exists (?MOTION)\n (and\n (instance ?MOTION BodyMotion)\n (agent ?MOTION ?ANIMAL)))\n (exists (?ATTR)\n (and\n (instance ?ATTR BodyPosition)\n (attribute ?ANIMAL ?ATTR)))))"))
([UAX-860] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2066)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?AMBULATE Ambulating)\n (agent ?AMBULATE ?AGENT))\n (attribute ?AGENT Standing))"))
([UAX-861] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2071)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?ORGANISM Organism)\n (agent ?PROCESS ?ORGANISM))\n (holdsDuring (WhenFn ?PROCESS) (attribute ?ORGANISM Living)))"))
([UAX-862] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2073)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (instance ?ORG Organism)\n (exists (?ATTR)\n (and\n (instance ?ATTR AnimacyAttribute)\n (attribute ?ORG ?ATTR))))"))
([UAX-863] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2076)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?BODY ReproductiveBody)\n (part ?BODY ?ORG)\n (instance ?ORG Organism))\n(attribute ?ORG Female))"))
([UAX-864] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2077)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (instance ?WOMAN Woman)\n (attribute ?WOMAN Female))"))
([UAX-865] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2079)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (instance ?ANIMAL Animal)\n (exists (?ATTR)\n (and\n (instance ?ATTR SexAttribute)\n (attribute ?ANIMAL ?ATTR))))"))
([UAX-866] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2080)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (instance ?MAN Man)\n (attribute ?MAN Male))"))
([UAX-867] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2083)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (attribute ?OBJ FullyFormed)\n (exists (?GROWTH)\n (and\n (instance ?GROWTH Growth)\n (experiencer ?GROWTH ?OBJ)\n (holdsDuring (BeginFn (WhenFn ?OBJ)) (attribute ?OBJ NonFullyFormed)))))"))
([UAX-868] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2085)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (instance ?ORG Organism)\n (exists (?ATTR)\n (and\n (instance ?ATTR DevelopmentalAttribute)\n (attribute ?ORG ?ATTR))))"))
([UAX-869] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2087)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (holdsDuring ?TIME (attribute ?ORG Larval))\n (holdsDuring (PastFn ?TIME) (exists (?BIRTH) (and (instance ?BIRTH Birth) (experiencer ?BIRTH ?ORG)))))"))
([UAX-870] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2089)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (attribute ?ORG Embryonic)\n (exists (?BODY)\n (and\n (instance ?BODY ReproductiveBody)\n (located ?ORG ?BODY))))"))
([UAX-871] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2090)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (holdsDuring ?TIME (attribute ?ORG Embryonic))\n (holdsDuring ?TIME (not (exists (?BIRTH) (and (instance ?BIRTH Birth) (experiencer ?BIRTH ?ORG))))))"))
([UAX-872] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2093)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (instance ?ATTR PsychologicalAttribute)\n (=>\n (holdsDuring ?TIME (attribute ?ORGANISM ?ATTR))\n (holdsDuring ?TIME (attribute ?ORGANISM Living))))"))
([UAX-873] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2094)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?ATTR PsychologicalAttribute)\n (attribute ?AGENT ?ATTR))\n (instance ?AGENT SentientAgent))"))
([UAX-874] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2098)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(<=>\n (and\n (instance ?AGENT SentientAgent)\n (attribute ?AGENT Living))\n (exists (?ATTR)\n (and\n (instance ?ATTR ConsciousnessAttribute)\n (attribute ?AGENT ?ATTR))))"))
([UAX-875] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2102)
(%3AisInModule [QUALITIES])
(%3APAL-STATEMENT "(=>\n (or\n (attribute ?AGENT Asleep)\n (attribute ?AGENT Awake))\n (attribute ?AGENT Living))"))
([UAX-876] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2109)
(%3AisInModule [Sequestered_Axioms])
(%3APAL-STATEMENT "(<=>\n (instance ?ENTITY (UnionFn ?CLASS1 ?CLASS2))\n (or\n (instance ?ENTITY ?CLASS1)\n (instance ?ENTITY ?CLASS2)))"))
([UAX-877] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2110)
(%3AisInModule [Sequestered_Axioms])
(%3APAL-STATEMENT "(<=>\n (instance ?ENTITY (IntersectionFn ?CLASS1 ?CLASS2))\n (and\n (instance ?ENTITY ?CLASS1)\n (instance ?ENTITY ?CLASS2)))"))
([UAX-878] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2111)
(%3AisInModule [Sequestered_Axioms])
(%3APAL-STATEMENT "(<=>\n (instance ?ENTITY (ComplementFn ?CLASS))\n (not\n (instance ?ENTITY ?CLASS)))"))
([UAX-879] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2112)
(%3AisInModule [Sequestered_Axioms])
(%3APAL-STATEMENT "(=>\n (and\n (instance ?CLASS1 SetOrClass)\n (instance ?CLASS2 SetOrClass))\n (equal (RelativeComplementFn ?CLASS1 ?CLASS2) (IntersectionFn ?CLASS1 (ComplementFn ?CLASS2))))"))
([UAX-880] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2113)
(%3AisInModule [Sequestered_Axioms])
(%3APAL-STATEMENT "(<=>\n (instance ?ENTITY (GeneralizedUnionFn ?SUPERCLASS))\n (exists (?CLASS)\n (and\n (instance ?CLASS ?SUPERCLASS)\n (instance ?ENTITY ?CLASS))))"))
([UAX-881] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2114)
(%3AisInModule [Sequestered_Axioms])
(%3APAL-STATEMENT "(<=>\n (instance ?ENTITY (GeneralizedIntersectionFn ?SUPERCLASS))\n (forall (?CLASS)\n (=>\n (instance ?CLASS ?SUPERCLASS)\n (instance ?ENTITY ?CLASS))))"))
([UAX-882] of %3AUBL-AXIOM
(%3ALOAD-SEQUENCE 2115)
(%3AisInModule [Sequestered_Axioms])
(%3APAL-STATEMENT "(<=>\n (instance ?SUBCLASS (PowerSetFn ?CLASS))\n (subclass ?SUBCLASS ?CLASS))"))
([UBLcore_00000] of %3ASTANDARD-FACET
(%3AASSOCIATED-SLOT [%3ADomain3Class]))
([UBLcore_00353] of %3ASynonym
(%3AhasUsage technical)
(%3AhasFrequency 0.5)
(%3AinLanguage [English]))
([UBLinv014_00277] of %3ASTANDARD-FACET
(%3AASSOCIATED-SLOT [%3AAXIOMS]))
([UBLinv018_00288] of %3ASTANDARD-FACET
(%3AASSOCIATED-SLOT [%3ADomain2Type]))
([UBLinv018_00290] of %3ASTANDARD-FACET
(%3AASSOCIATED-SLOT [%3ADomain1Type]))
([UBLinv018t_00300] of %3ASTANDARD-FACET
(%3AASSOCIATED-SLOT [%3ADomain3Type]))
([UBLinv018t_00302] of %3ASTANDARD-FACET
(%3AASSOCIATED-SLOT [%3ADomain4Class]))
([UBLinv018t_00304] of %3ASTANDARD-FACET
(%3AASSOCIATED-SLOT [%3ADomain4Value]))
([UBLinv018t_00306] of %3ASTANDARD-FACET
(%3AASSOCIATED-SLOT [%3ADomain4Type]))
([UBLinv018t_00322] of %3ASTANDARD-FACET
(%3AASSOCIATED-SLOT [%3AisInModule]))
([UBLinv019_00333] of %3ASTANDARD-FACET
(%3AASSOCIATED-SLOT [%3ALOAD-SEQUENCE]))
([UnaryConstantFunctionQuantity] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 236)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-082]))
([UnaryFunction] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 357)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-136])
(%3AidenticalTo "Instance(UnaryFunction_1 of Cls(InheritableRelation))"))
([UnaryFunction_1] of InheritableRelation
(%3Adocumentation "\"The &%Class of &%Functions that require a single argument.\"")
(%3AidenticalTo "Cls(UnaryFunction)"))
([UnaryRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 251)
(disjoint
[BinaryRelation]
[TernaryRelation]
[QuaternaryRelation]
[QuintaryRelation]
[VariableArityRelation])
(%3AisInModule [BASE_ONTOLOGY]))
([Unbreakable] of BreakabilityAttribute
(contraryAttribute_2 [Fragile])
(%3Adocumentation "\"An &%Attribute which indicates that the associated &%Object cannot be broken.\"")
(%3AAXIOMS "\n(UAX-857)\n(=>\n (attribute ?OBJ Unbreakable)\n (not (exists (?DAMAGE)\n (and\n (instance ?DAMAGE Damaging)\n (patient ?DAMAGE ?OBJ)))))\n")
(%3ASUO-name "Unbreakable"))
([Unconscious] of ConsciousnessAttribute
(contraryAttribute_2 [Awake])
(%3Adocumentation "\"This &%Attribute applies to &%Organisms that are unconscious. An &%Organism may be &%Unconscious because it is &%Dead or &%Asleep or because of a blow to the head, a drug, etc.\"")
(%3ASUO-name "Unconscious"))
([Uncovering] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1224)
(disjoint [Covering])
(%3AisInModule [PROCESSES]))
([Unemployed] of SocialRole
(%3Adocumentation "\"The &%Attribute of a &%CognitiveAgent when he/she is unemployed.\"")
(%3AAXIOMS "\n(UAX-816)\n(<=>\n (forall (?ORG)\n (not (employs ?ORG ?PERSON)))\n (attribute ?PERSON Unemployed))\n")
(%3ASUO-name "Unemployed"))
([UnilateralGetting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1272)
(relatedInternalConcept "UnilateralGiving")
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-533]))
([UnilateralGiving] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1264)
(relatedInternalConcept "UnilateralGetting")
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-529]))
([Unilluminated] of VisualAttribute
(contraryAttribute_2 [Illuminated])
(%3Adocumentation "\"The &%Attribute of &%Regions that are unilluminated, i.e in which no shapes are visually discernable.\"")
(%3ASUO-name "Unilluminated"))
([UnionFn] of BinaryFunction
(%3AidenticalTo
"Instance(UnionFn_1 of Cls(TotalValuedRelation))"
"Slot(UnionFn_2)")
(%3Adocumentation "\"A &%BinaryFunction that maps two &%SetOrClasses to the union of these &%SetOrClasses. An object is an &%element of the union of two &%SetOrClasses just in case it is an &%instance of either &%SetOrClass.\"")
(%3ASUO-name "UnionFn"))
([UnionFn_1] of TotalValuedRelation
(%3AidenticalTo
"Instance(UnionFn of Cls(BinaryFunction))"
"Slot(UnionFn_2)")
(%3Adocumentation "\"A &%BinaryFunction that maps two &%SetOrClasses to the union of these &%SetOrClasses. An object is an &%element of the union of two &%SetOrClasses just in case it is an &%instance of either &%SetOrClass.\"")
(%3ASUO-name "UnionFn"))
([UnionFn_2] of %3ATernarySlot
(%3ALOAD-SEQUENCE 564)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(%3AisInModule [SET%2FCLASS_THEORY])
(%3ADomain2Class SetOrClass)
(%3AidenticalTo
"Instance(UnionFn of Cls(BinaryFunction))"
"Instance(UnionFn_1 of Cls(TotalValuedRelation))")
(%3ASUO-name "UnionFn"))
([uniqueIdentifier] of SingleValuedRelation
(%3AidenticalTo "Slot(uniqueIdentifier_1)")
(%3Adocumentation "\"The class of &%names that uniquely identify an instance of &%Entity. Some examples of &%uniqueIdentifiers are the keys of tables in database applications and the ISBN (International Standard Book Number).\"")
(%3ASUO-name "uniqueIdentifier"))
([uniqueIdentifier_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 457)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(uniqueIdentifier of Cls(SingleValuedRelation))")
(%3ASUO-name "uniqueIdentifier"))
([UniqueList] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 327)
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-117]))
([UnitedKingdomGallon] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 786)
(relatedInternalConcept "UnitedStatesGallon")
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-297])
(%3AidenticalTo "Instance(UnitedKingdomGallon_1 of Cls(UnitOfMeasure))"))
([UnitedKingdomGallon_1] of UnitOfMeasure
(%3AidenticalTo "Cls(UnitedKingdomGallon)")
(%3Adocumentation "Unit of volume commonly used in the United Kingdom."))
([UnitedStatesCent] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 814)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-307])
(%3AidenticalTo "Instance(UnitedStatesCent_1 of Cls(UnitOfMeasure))"))
([UnitedStatesCent_1] of UnitOfMeasure
(%3AidenticalTo "Cls(UnitedStatesCent)")
(%3Adocumentation "A currency measure. 1 &%UnitedStatesCent is equal to .01 &%UnitedStatesDollars."))
([UnitedStatesDollar] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 813)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(UnitedStatesDollar_1 of Cls(UnitOfMeasure))"))
([UnitedStatesDollar_1] of UnitOfMeasure
(%3AidenticalTo "Cls(UnitedStatesDollar)")
(%3Adocumentation "A currency measure."))
([UnitedStatesGallon] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 776)
(relatedInternalConcept "UnitedKingdomGallon")
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-292])
(%3AidenticalTo "Instance(UnitedStatesGallon_1 of Cls(UnitOfMeasure))"))
([UnitedStatesGallon_1] of UnitOfMeasure
(%3AidenticalTo "Cls(UnitedStatesGallon)")
(%3Adocumentation "Unit of volume commonly used in the United States."))
([UnitOfMeasure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 643)
(%3AisInModule [UNITS_OF_MEASURE]))
([UNITS_OF_MEASURE] of %3AModule
(%3AStartingBlock 639)
(%3AinputFile "testin.kif")
(%3ASUO-name "UNITS_OF_MEASURE"))
([Unlikely] of TruthValue
(contraryAttribute_2 [Likely])
(%3Adocumentation "\"The &%TruthValue of being improbable, i.e. more likely than not to be &%False.\"")
(%3AAXIOMS "\n(UAX-795)\n(=>\n (property ?FORMULA Unlikely)\n (greaterThan (ProbabilityFn (true ?FORMULA False)) (ProbabilityFn (true ?FORMULA True))))\n")
(%3ASUO-name "Unlikely"))
([uses] of BinaryPredicate
(%3Adocumentation "\"(&%uses ?OBJECT AGENT) means that ?OBJECT is used by ?AGENT as an instrument in an unspecified &%Process. This &%Predicate, as its corresponding axiom indicates, is a composition of the &%CaseRoles &%agent and &%instrument.\"")
(%3AidenticalTo
"Instance(uses_1 of Cls(AsymmetricRelation))"
"Slot(uses_2)")
(%3ASUO-name "uses"))
([uses_1] of AsymmetricRelation
(%3Adocumentation "\"(&%uses ?OBJECT AGENT) means that ?OBJECT is used by ?AGENT as an instrument in an unspecified &%Process. This &%Predicate, as its corresponding axiom indicates, is a composition of the &%CaseRoles &%agent and &%instrument.\"")
(%3AidenticalTo
"Instance(uses of Cls(BinaryPredicate))"
"Slot(uses_2)")
(%3ASUO-name "uses"))
([uses_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 478)
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(uses of Cls(BinaryPredicate))"
"Instance(uses_1 of Cls(AsymmetricRelation))")
(%3AAXIOMS "\n(UAX-191)\n(=>\n (uses ?OBJ ?AGENT)\n (exists (?PROC)\n (and\n (agent ?PROC ?AGENT)\n (instrument ?PROC ?OBJ))))\n")
(%3ASUO-name "uses"))
([valence] of BinaryPredicate
(%3Adocumentation "\"Specifies the number of arguments that a relation can take. If a relation does not have a fixed number of arguments, it does not have a valence and it is an instance of &%VariableArityRelation. For example, &%holds is a &%VariableArityRelation.\"")
(%3AidenticalTo
"Instance(valence_2 of Cls(SingleValuedRelation))"
"Instance(valence_1 of Cls(AsymmetricRelation))"
"Slot(valence_3)")
(%3ASUO-name "valence"))
([valence_1] of AsymmetricRelation
(%3Adocumentation "\"Specifies the number of arguments that a relation can take. If a relation does not have a fixed number of arguments, it does not have a valence and it is an instance of &%VariableArityRelation. For example, &%holds is a &%VariableArityRelation.\"")
(%3AidenticalTo
"Instance(valence of Cls(BinaryPredicate))"
"Instance(valence_2 of Cls(SingleValuedRelation))"
"Slot(valence_3)")
(%3ASUO-name "valence"))
([valence_2] of SingleValuedRelation
(%3AidenticalTo
"Instance(valence of Cls(BinaryPredicate))"
"Instance(valence_1 of Cls(AsymmetricRelation))"
"Slot(valence_3)")
(%3Adocumentation "\"Specifies the number of arguments that a relation can take. If a relation does not have a fixed number of arguments, it does not have a valence and it is an instance of &%VariableArityRelation. For example, &%holds is a &%VariableArityRelation.\"")
(%3ASUO-name "valence"))
([valence_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 46)
(%3AisInModule [STRUCTURAL_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(valence of Cls(BinaryPredicate))"
"Instance(valence_2 of Cls(SingleValuedRelation))"
"Instance(valence_1 of Cls(AsymmetricRelation))")
(%3ASUO-name "valence"))
([ValidDeductiveArgument] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1872)
(disjoint [InvalidDeductiveArgument])
(%3AisInModule [QUALITIES])
(%3ASLOT-CONSTRAINTS [UAX-788]))
([VariableArityRelation] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 383)
(disjoint
[UnaryRelation]
[BinaryRelation]
[TernaryRelation]
[QuaternaryRelation]
[QuintaryRelation])
(%3AisInModule [BASE_ONTOLOGY])
(%3ASLOT-CONSTRAINTS [UAX-148]))
([Vehicle] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1787)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS
[UAX-754]
[UAX-755]))
([VelocityFn] of QuaternaryFunction
(%3AidenticalTo "Instance(VelocityFn_1 of Cls(TotalValuedRelation))")
(%3Adocumentation "\"Specifies the velocity of an object, i.e. the speed and the direction of the speed. For example (&%VelocityFn (&%MeasureFn 55 &%Mile) (&%MeasureFn 2 &%HourDuration) ?REFERENCE &%North) denotes the velocity of 55 miles per hour North of the given reference point ?REFERENCE.\"")
(%3AAXIOMS "\n(UAX-277)\n(=>\n (measure ?OBJECT (VelocityFn ?DISTANCE ?TIME ?REF ?DIRECTION))\n (measure ?OBJECT (SpeedFn ?DISTANCE ?TIME)))\n")
(%3ASUO-name "VelocityFn"))
([VelocityFn_1] of TotalValuedRelation
(%3AidenticalTo "Instance(VelocityFn of Cls(QuaternaryFunction))")
(%3Adocumentation "\"Specifies the velocity of an object, i.e. the speed and the direction of the speed. For example (&%VelocityFn (&%MeasureFn 55 &%Mile) (&%MeasureFn 2 &%HourDuration) ?REFERENCE &%North) denotes the velocity of 55 miles per hour North of the given reference point ?REFERENCE.\"")
(%3ASUO-name "VelocityFn"))
([Verb] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1690)
(disjoint
[Noun]
[Adjective]
[Adverb]
[Particle])
(%3AisInModule [OBJECTS]))
([VerbPhrase] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1700)
(disjoint
[NounPhrase]
[PrepositionalPhrase])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-713]))
([version] of BinaryPredicate
(%3Adocumentation "\"Some &%Artifacts have a life cycle with discrete stages or versions. (&%version ARTIFACT1 ARTIFACT2) means that ARTIFACT1 is a version of ARTIFACT2. Note that this &%Predicate relates subclasses of &%Artifact and not instances.\"")
(%3AidenticalTo
"Instance(version_1 of Cls(AsymmetricRelation))"
"Instance(version_2 of Cls(TransitiveRelation))"
"Slot(version_3)")
(%3ASUO-name "version"))
([version_1] of AsymmetricRelation
(%3Adocumentation "\"Some &%Artifacts have a life cycle with discrete stages or versions. (&%version ARTIFACT1 ARTIFACT2) means that ARTIFACT1 is a version of ARTIFACT2. Note that this &%Predicate relates subclasses of &%Artifact and not instances.\"")
(%3AidenticalTo
"Instance(version of Cls(BinaryPredicate))"
"Instance(version_2 of Cls(TransitiveRelation))"
"Slot(version_3)")
(%3ASUO-name "version"))
([version_2] of TransitiveRelation
(%3Adocumentation "\"Some &%Artifacts have a life cycle with discrete stages or versions. (&%version ARTIFACT1 ARTIFACT2) means that ARTIFACT1 is a version of ARTIFACT2. Note that this &%Predicate relates subclasses of &%Artifact and not instances.\"")
(%3AidenticalTo
"Instance(version of Cls(BinaryPredicate))"
"Instance(version_1 of Cls(AsymmetricRelation))"
"Slot(version_3)")
(%3ASUO-name "version"))
([version_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1754)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Class)
(%3AidenticalTo
"Instance(version of Cls(BinaryPredicate))"
"Instance(version_1 of Cls(AsymmetricRelation))"
"Instance(version_2 of Cls(TransitiveRelation))")
(%3AAXIOMS "\n(UAX-740)\n(=>\n (version ?ARTIFACT1 ?ARTIFACT2)\n (subclass ?ARTIFACT1 ?ARTIFACT2))\n")
(%3ASUO-name "version"))
([Vertebrate] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1587)
(disjoint [Invertebrate])
(%3AisInModule [OBJECTS]))
([Vertical] of PositionalAttribute
(contraryAttribute_2 [Horizontal])
(%3Adocumentation "\"Attribute used to indicate that an &%Object is positioned height-wise with respect to another &%Object.\"")
(%3AAXIOMS "\n(UAX-800)\n(<=>\n (orientation ?OBJ1 ?OBJ2 Vertical)\n (orientation ?OBJ2 ?OBJ1 Vertical))\n")
(%3ASUO-name "Vertical"))
([ViolentContest] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1447)
(%3AisInModule [PROCESSES]))
([Virus] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1583)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS
[UAX-675]
[UAX-676]
[UAX-677]))
([VisualAttribute] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1988)
(%3AisInModule [QUALITIES]))
([Vitamin] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1625)
(disjoint
[Protein]
[Carbohydrate])
(%3AisInModule [OBJECTS]))
([Vocalizing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1201)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-504]))
([Volt] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 721)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Volt_1 of Cls(SystemeInternationalUnit))"))
([Volt_1] of SystemeInternationalUnit
(%3Adocumentation "SI electric potential measure. Symbol: V. It is the difference of electric potential between two points of a conducting wire carrying a constant current of 1 &%Ampere, when the power dissipated between these points is equal to 1 &%Watt. &%Volt = W/A = m^2*kg*s^(-3)*A^(-1).")
(%3AidenticalTo "Cls(Volt)"))
([VolumeMeasure] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 648)
(%3AisInModule [UNITS_OF_MEASURE]))
([Voting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1304)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-549]))
([Walking] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1206)
(disjoint [Running])
(%3AisInModule [PROCESSES]))
([wants] of ObjectAttitude)
([wants_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 309)
(relatedInternalConcept
"desires"
"desires")
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(wants of Cls(ObjectAttitude))"
"Instance(wants_2 of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-108)\n(=>\n (wants ?AGENT ?OBJ)\n (exists (?PURP)\n (hasPurposeForAgent ?OBJ ?PURP ?AGENT)))\n\n(UAX-109)\n(=>\n (wants ?AGENT ?OBJ)\n (desires ?AGENT (possesses ?AGENT ?OBJ)))\n")
(%3ASUO-name "wants"))
([wants_2] of BinaryPredicate
(%3AidenticalTo
"Instance(wants of Cls(ObjectAttitude))"
"Slot(wants_1)")
(%3ASUO-name "wants"))
([War] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1448)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-618]
[UAX-619]))
([WarmBloodedVertebrate] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1597)
(disjoint [ColdBloodedVertebrate])
(%3AisInModule [OBJECTS]))
([Warranty] of DeonticAttribute
(%3Adocumentation "\"&%Attribute that applies to &%Propositions that an &%Agent is required, by some authority, to make true.\""))
([Water] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1541)
(%3AisInModule [OBJECTS]))
([WaterArea] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1517)
(disjoint [LandArea])
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS [UAX-651]))
([WaterCloud] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1631)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS
[UAX-682]
[UAX-683]))
([Watt] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 716)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Watt_1 of Cls(SystemeInternationalUnit))"))
([Watt_1] of SystemeInternationalUnit
(%3Adocumentation "SI power measure. Symbol: W. A &%UnitOfMeasure that measures power, i.e. energy produced or expended divided by &%TimeDuration. It is the power which gives rise to the production of energy (or work) at the rate of one &%Joule per &%SecondDuration. &%Watt = J/s = m^2*kg*s^(-3).")
(%3AidenticalTo "Cls(Watt)"))
([WealthFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps an &%Agent to a &%CurrencyMeasure specifying the value of the property owned by the &%Agent. Note that this &%Function is generally used in conjunction with the &%Function &%PropertyFn, e.g. (&%WealthFn (&%PropertyFn BillGates)) would return the monetary value of the sum of Bill Gates' holdings.\"")
(%3AidenticalTo "Slot(WealthFn_1)")
(%3ASUO-name "WealthFn"))
([WealthFn_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 846)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(WealthFn of Cls(UnaryFunction))")
(%3AAXIOMS "\n(UAX-318)\n(<=>\n (equal (WealthFn ?PERSON) ?AMOUNT)\n (monetaryValue (PropertyFn ?PERSON) ?AMOUNT))\n")
(%3ASUO-name "WealthFn"))
([Weapon] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1794)
(%3AisInModule [OBJECTS])
(%3ASLOT-CONSTRAINTS
[UAX-758]
[UAX-759]))
([wears] of BinaryPredicate
(%3Adocumentation "\"(&%wears ?AGENT ?CLOTHING) means that ?AGENT is wearing the item of &%Clothing ?CLOTHING.\"")
(%3AidenticalTo "Slot(wears_1)")
(%3ASUO-name "wears"))
([wears_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1778)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(wears of Cls(BinaryPredicate))")
(%3AAXIOMS "\n(UAX-749)\n(=>\n (wears ?AGENT ?CLOTHING)\n (located ?CLOTHING ?AGENT))\n")
(%3ASUO-name "wears"))
([WeatherProcess] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1357)
(%3AisInModule [PROCESSES]))
([Weber] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 729)
(%3AisInModule [UNITS_OF_MEASURE])
(%3AidenticalTo "Instance(Weber_1 of Cls(SystemeInternationalUnit))"))
([Weber_1] of SystemeInternationalUnit
(%3Adocumentation "SI magnetic flux measure. Symbol: Wb. It is the magnetic flux which, linking a circuit of one turn, produces in it an electromotive force of 1 &%Volt as it is reduced to zero at a uniform rate in 1 &%SecondDuration. &%Weber = V*s = m^2*kg*s^(-2)*A^(-1).")
(%3AidenticalTo "Cls(Weber)"))
([Wedding] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1436)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS [UAX-612]))
([Wednesday] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 983)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS [UAX-396]))
([Week] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 994)
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS [UAX-402]))
([WeekDuration] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 755)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-284])
(%3AidenticalTo "Instance(WeekDuration_1 of Cls(UnitOfMeasure))"))
([WeekDuration_1] of UnitOfMeasure
(%3AidenticalTo "Cls(WeekDuration)")
(%3Adocumentation "Time unit. A week's duration is seven days."))
([West] of DirectionalAttribute
(contraryAttribute_2
[North]
[South]
[East])
(%3Adocumentation "\"The compass direction of &%West.\"")
(%3AAXIOMS "\n(UAX-799)\n(<=>\n (orientation ?OBJ1 ?OBJ2 East)\n (orientation ?OBJ2 ?OBJ1 West))\n")
(%3ASUO-name "West"))
([Wet] of SaturationAttribute
(%3Adocumentation "\"An &%Attribute which indicates that the associated &%Object is fully saturated with a &%Liquid, i.e. every part of the &%Object has a subpart which is a &%Liquid.\"")
(%3AAXIOMS "\n(UAX-856)\n(=>\n (attribute ?OBJ Wet)\n (forall (?PART)\n (=>\n (part ?PART ?OBJ)\n (exists (?SUBPART)\n (and\n (part ?SUBPART ?PART)\n (attribute ?SUBPART Liquid))))))\n")
(%3ASUO-name "Wet"))
([Wetting] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1376)
(%3AisInModule [PROCESSES])
(%3ASLOT-CONSTRAINTS
[UAX-583]
[UAX-584]))
([WhenFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps an &%Object or &%Process to the exact &%TimeInterval during which it exists. Note that, for every &%TimePoint ?TIME outside of the &%TimeInterval (WhenFn ?THING), (time ?THING ?TIME) does not hold.\"")
(%3AidenticalTo
"Instance(WhenFn_1 of Cls(TemporalRelation))"
"Instance(WhenFn_2 of Cls(TotalValuedRelation))"
"Slot(WhenFn_3)")
(%3ASUO-name "WhenFn"))
([WhenFn_1] of TemporalRelation
(%3AidenticalTo
"Instance(WhenFn_2 of Cls(TotalValuedRelation))"
"Instance(WhenFn of Cls(UnaryFunction))"
"Slot(WhenFn_3)")
(%3Adocumentation "\"A &%UnaryFunction that maps an &%Object or &%Process to the exact &%TimeInterval during which it exists. Note that, for every &%TimePoint ?TIME outside of the &%TimeInterval (WhenFn ?THING), (time ?THING ?TIME) does not hold.\"")
(%3ASUO-name "WhenFn"))
([WhenFn_2] of TotalValuedRelation
(%3AidenticalTo
"Instance(WhenFn_1 of Cls(TemporalRelation))"
"Instance(WhenFn of Cls(UnaryFunction))"
"Slot(WhenFn_3)")
(%3Adocumentation "\"A &%UnaryFunction that maps an &%Object or &%Process to the exact &%TimeInterval during which it exists. Note that, for every &%TimePoint ?TIME outside of the &%TimeInterval (WhenFn ?THING), (time ?THING ?TIME) does not hold.\"")
(%3ASUO-name "WhenFn"))
([WhenFn_3] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 908)
(relatedInternalConcept "WhereFn")
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(WhenFn_1 of Cls(TemporalRelation))"
"Instance(WhenFn_2 of Cls(TotalValuedRelation))"
"Instance(WhenFn of Cls(UnaryFunction))")
(%3ASUO-name "WhenFn"))
([WhereFn] of BinaryFunction
(%3AidenticalTo
"Instance(WhereFn_2 of Cls(TotalValuedRelation))"
"Instance(WhereFn_1 of Cls(SpatialRelation))"
"Slot(WhereFn_3)")
(%3Adocumentation "\"Maps an &%Object and a &%TimePoint at which the &%Object exists to the &%Region where the &%Object existed at that &%TimePoint.\"")
(%3ASUO-name "WhereFn"))
([WhereFn_1] of SpatialRelation
(%3AidenticalTo
"Instance(WhereFn_2 of Cls(TotalValuedRelation))"
"Instance(WhereFn of Cls(BinaryFunction))"
"Slot(WhereFn_3)")
(%3Adocumentation "\"Maps an &%Object and a &%TimePoint at which the &%Object exists to the &%Region where the &%Object existed at that &%TimePoint.\"")
(%3ASUO-name "WhereFn"))
([WhereFn_2] of TotalValuedRelation
(%3AidenticalTo
"Instance(WhereFn_1 of Cls(SpatialRelation))"
"Instance(WhereFn of Cls(BinaryFunction))"
"Slot(WhereFn_3)")
(%3Adocumentation "\"Maps an &%Object and a &%TimePoint at which the &%Object exists to the &%Region where the &%Object existed at that &%TimePoint.\"")
(%3ASUO-name "WhereFn"))
([WhereFn_3] of %3ATernarySlot
(%3ALOAD-SEQUENCE 442)
(%3ADomain2Type Instance)
(%3ADomain1Type Instance)
(relatedInternalConcept "WhenFn")
(%3AisInModule [BASE_ONTOLOGY])
(%3ADomain2Class TimePoint)
(%3AidenticalTo
"Instance(WhereFn_2 of Cls(TotalValuedRelation))"
"Instance(WhereFn_1 of Cls(SpatialRelation))"
"Instance(WhereFn of Cls(BinaryFunction))")
(%3AAXIOMS "\n(UAX-175)\n(<=>\n (equal (WhereFn ?THING ?TIME) ?REGION)\n (holdsDuring ?TIME (exactlyLocated ?THING ?REGION)))\n")
(%3ASUO-name "WhereFn"))
([White] of PrimaryColor
(%3Adocumentation "\"The &%Attribute of being white in color.\"")
(%3ASUO-name "White"))
([width] of SingleValuedRelation
(%3AidenticalTo "Slot(width_1)")
(%3Adocumentation "\"&%BinaryPredicate that is used to state the measure of an &%Object from side to side at its widest span.\"")
(%3ASUO-name "width"))
([width_1] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 832)
(%3AisInModule [UNITS_OF_MEASURE])
(%3ADomain1Type Instance)
(%3AidenticalTo "Instance(width of Cls(SingleValuedRelation))")
(%3ASUO-name "width"))
([wife] of AsymmetricRelation
(%3Adocumentation "\"(&%wife ?WOMAN ?MAN) means that ?WOMAN is the wife of ?MAN.\"")
(%3AidenticalTo
"Instance(wife_1 of Cls(IrreflexiveRelation))"
"Slot(wife_2)")
(%3ASUO-name "wife"))
([wife_1] of IrreflexiveRelation
(%3Adocumentation "\"(&%wife ?WOMAN ?MAN) means that ?WOMAN is the wife of ?MAN.\"")
(%3AidenticalTo
"Slot(wife_2)"
"Instance(wife of Cls(AsymmetricRelation))")
(%3ASUO-name "wife"))
([wife_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 1835)
(%3AisInModule [OBJECTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(wife_1 of Cls(IrreflexiveRelation))"
"Instance(wife of Cls(AsymmetricRelation))")
(%3ASUO-name "wife"))
([Wind] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1215)
(%3AisInModule [PROCESSES]))
([Woman] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1617)
(%3AisInModule [OBJECTS]))
([Word] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 174)
(partition
[Noun]
[Verb]
[Adjective]
[Adverb]
[Particle])
(%3AisInModule [BASE_ONTOLOGY]))
([Worm] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1589)
(disjoint
[Mollusk]
[Arthropod])
(%3AisInModule [OBJECTS]))
([Writing] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 1370)
(%3AisInModule [PROCESSES]))
([Year] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 935)
(relatedInternalConcept
"YearFn"
"YearDuration")
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ASLOT-CONSTRAINTS
[UAX-366]
[UAX-367]))
([YearDuration] of %3AUBL-CLASS
(%3ALOAD-SEQUENCE 757)
(relatedInternalConcept "Year")
(%3AisInModule [UNITS_OF_MEASURE])
(%3ASLOT-CONSTRAINTS [UAX-285])
(%3AidenticalTo "Instance(YearDuration_1 of Cls(UnitOfMeasure))"))
([YearDuration_1] of UnitOfMeasure
(%3AidenticalTo "Cls(YearDuration)")
(%3Adocumentation "Time unit. one calendar year. 1 year = 365 days = 31536000 seconds."))
([YearFn] of UnaryFunction
(%3Adocumentation "\"A &%UnaryFunction that maps a number to the corresponding calendar &%Year. For example, (&%YearFn 1912) returns the &%Class containing just one instance, the year of 1912. As might be expected, positive integers return years in the Common Era, while negative integers return years in B.C.E. Note that this function returns a &%Class as a value. The reason for this is that the related functions, viz. &%MonthFn, &%DayFn, &%HourFn, &%MinuteFn, and &%SecondFn, are used to generate both specific &%TimeIntervals and recurrent intervals, and the only way to do this is to make the domains and ranges of these functions classes rather than individuals.\"")
(%3AidenticalTo
"Slot(YearFn_2)"
"Instance(YearFn_1 of Cls(TemporalRelation))")
(%3ASUO-name "YearFn"))
([YearFn_1] of TemporalRelation
(%3AidenticalTo
"Slot(YearFn_2)"
"Instance(YearFn of Cls(UnaryFunction))")
(%3Adocumentation "\"A &%UnaryFunction that maps a number to the corresponding calendar &%Year. For example, (&%YearFn 1912) returns the &%Class containing just one instance, the year of 1912. As might be expected, positive integers return years in the Common Era, while negative integers return years in B.C.E. Note that this function returns a &%Class as a value. The reason for this is that the related functions, viz. &%MonthFn, &%DayFn, &%HourFn, &%MinuteFn, and &%SecondFn, are used to generate both specific &%TimeIntervals and recurrent intervals, and the only way to do this is to make the domains and ranges of these functions classes rather than individuals.\"")
(%3ASUO-name "YearFn"))
([YearFn_2] of %3AUBL-SLOT
(%3ALOAD-SEQUENCE 921)
(relatedInternalConcept "Year")
(%3AisInModule [TEMPORAL_CONCEPTS])
(%3ADomain1Type Instance)
(%3AidenticalTo
"Instance(YearFn of Cls(UnaryFunction))"
"Instance(YearFn_1 of Cls(TemporalRelation))")
(%3ASUO-name "YearFn"))
([Yellow] of PrimaryColor
(%3Adocumentation "\"The &%Attribute of being yellow in color.\"")
(%3ASUO-name "Yellow"))