Deductions
- multivalued function has quality type ⇐ (multivalued function has quality class), (class has quality type), (has quality is a transitive relation)
- multivalued function has quality type of property ⇐ (multivalued function has quality class), (class has quality type of property), (has quality is a transitive relation)
- multivalued function has quality existence ⇐ (multivalued function has quality class), (class has quality existence), (has quality is a transitive relation)
- multivalued function has quality criterion ⇐ (multivalued function has quality class), (class has quality criterion), (has quality is a transitive relation)
- multivalued function has quality quality ⇐ (multivalued function has quality class), (class has quality quality), (has quality is a transitive relation)
- multivalued function has quality property ⇐ (multivalued function has quality class), (class has quality property), (has quality is a transitive relation)
- multivalued function has quality class ⇐ (set is a class), (multivalued function has quality set)
- multivalued function has part class ⇐ (type is a class), (multivalued function has part type)
- multivalued function has quality class ⇐ (quality is a class), (multivalued function has quality quality)
- multivalued function has quality type ⇐ (multivalued function has quality class), (class has quality type), (has quality is a transitive relation)
- multivalued function has quality type of property ⇐ (multivalued function has quality class), (class has quality type of property), (has quality is a transitive relation)
- multivalued function has quality existence ⇐ (multivalued function has quality class), (class has quality existence), (has quality is a transitive relation)
- multivalued function has quality criterion ⇐ (multivalued function has quality class), (class has quality criterion), (has quality is a transitive relation)
- multivalued function has quality quality ⇐ (multivalued function has quality class), (class has quality quality), (has quality is a transitive relation)
- multivalued function has quality property ⇐ (multivalued function has quality class), (class has quality property), (has quality is a transitive relation)
- multivalued function has quality class ⇐ (set is a class), (multivalued function has quality set)
- multivalued function has quality abstract entity ⇐ (set is a abstract entity), (multivalued function has quality set)
- multivalued function has part abstract entity ⇐ (type is a abstract entity), (multivalued function has part type)
- multivalued function has part concept ⇐ (multivalued function is subclass of relation), (relation has part concept)
- multivalued function has part class ⇐ (multivalued function is subclass of relation), (relation has part class)
- multivalued function has part entity ⇐ (multivalued function is subclass of relation), (relation has part entity)
- multivalued function has part binary relation ⇐ (multivalued function is subclass of relation), (relation has part binary relation)
- multivalued function has part type of relation ⇐ (multivalued function is subclass of relation), (relation has part type of relation)
- multivalued function has part variable-order class ⇐ (multivalued function is subclass of relation), (relation has part variable-order class)
- multivalued function has part type ⇐ (multivalued function is subclass of relation), (relation has part type)
- multivalued function has part metaclass ⇐ (multivalued function is subclass of relation), (relation has part metaclass)
- multivalued function is subclass of binary relation ⇐ (function is subclass of binary relation), (function is opposite of multivalued function)
- multivalued function is subclass of relation ⇐ (function is subclass of relation), (function is opposite of multivalued function)
- multivalued function has quality entity ⇐ (taxonomic rank is a entity), (multivalued function has quality taxonomic rank)
- mathematical concept is for example multivalued function ⇐ (multivalued function is a mathematical concept), (is a is inverse of is for example)
- concept is for example multivalued function ⇐ (multivalued function is a concept), (is a is inverse of is for example)
- multivalued function is subclass of mathematical object ⇐ (function is subclass of mathematical object), (function is opposite of multivalued function)
- multivalued function is subclass of class ⇐ (function is subclass of class), (function is opposite of multivalued function)
- multivalued function is subclass of set ⇐ (function is subclass of set), (function is opposite of multivalued function)
- multivalued function has quality extension of a concept ⇐ (multivalued function is a concept), (concept has quality extension of a concept)
- multivalued function has quality relation ⇐ (multivalued function is a concept), (concept has quality relation)
- multivalued function has quality set ⇐ (multivalued function is a concept), (concept has quality set)
- multivalued function has quality superclass ⇐ (multivalued function is a concept), (concept has quality superclass)
- multivalued function has quality class ⇐ (multivalued function is a concept), (concept has quality class)
- multivalued function has quality mathematical object ⇐ (multivalued function is a concept), (concept has quality mathematical object)
- multivalued function has quality taxonomic rank ⇐ (multivalued function is a concept), (concept has quality taxonomic rank)
- multivalued function has quality mathematical property ⇐ (multivalued function is a concept), (concept has quality mathematical property)
- multivalued function is a concept ⇐ (mathematical concept is subclass of concept), (multivalued function is a mathematical concept)
- multivalued function is a mathematical concept ⇐ (function is a mathematical concept), (function is opposite of multivalued function)