scalar quantity

Deductions

• scalar quantity has quality number of entities ⇐ (scalar quantity has quality mathematical property), (mathematical property has quality number of entities), (has quality is a transitive relation)
• scalar quantity has quality arity ⇐ (scalar quantity has quality mathematical property), (mathematical property has quality arity), (has quality is a transitive relation)
• scalar quantity has quality relation ⇐ (scalar quantity has quality mathematical object), (mathematical object has quality relation), (has quality is a transitive relation)
• scalar quantity has quality mathematical property ⇐ (scalar quantity has quality mathematical object), (mathematical object has quality mathematical property), (has quality is a transitive relation)
• scalar quantity has quality class ⇐ (scalar quantity has quality subjectivity), (subjectivity has quality class), (has quality is a transitive relation)
• scalar quantity has quality set ⇐ (scalar quantity has quality subjectivity), (subjectivity has quality set), (has quality is a transitive relation)
• scalar quantity has quality mathematical object ⇐ (scalar quantity has quality subjectivity), (subjectivity has quality mathematical object), (has quality is a transitive relation)
• scalar quantity has quality extension of a concept ⇐ (scalar quantity has quality subjectivity), (subjectivity has quality extension of a concept), (has quality is a transitive relation)
• scalar quantity has quality subjectivity ⇐ (scalar quantity has quality credibility), (credibility has quality subjectivity), (has quality is a transitive relation)
• scalar quantity has quality philosophical concept ⇐ (scalar quantity has quality credibility), (credibility has quality philosophical concept), (has quality is a transitive relation)
• scalar quantity has quality type of object ⇐ (scalar quantity has quality source of information), (source of information has quality type of object), (has quality is a transitive relation)
• scalar quantity has quality involvement ⇐ (scalar quantity has quality source of information), (source of information has quality involvement), (has quality is a transitive relation)
• scalar quantity has quality state ⇐ (scalar quantity has quality source of information), (source of information has quality state), (has quality is a transitive relation)
• scalar quantity has quality credibility ⇐ (scalar quantity has quality source of information), (source of information has quality credibility), (has quality is a transitive relation)
• scalar quantity has quality source type ⇐ (scalar quantity has quality source of information), (source of information has quality source type), (has quality is a transitive relation)
• scalar quantity has quality criterion ⇐ (scalar quantity has quality source of information), (source of information has quality criterion), (has quality is a transitive relation)
• scalar quantity has quality probability ⇐ (scalar quantity has quality source of information), (source of information has quality probability), (has quality is a transitive relation)
• scalar quantity has quality class ⇐ (scalar quantity has quality quality), (quality has quality class), (has quality is a transitive relation)
• scalar quantity has quality type of property ⇐ (scalar quantity has quality quality), (quality has quality type of property), (has quality is a transitive relation)
• scalar quantity has quality type ⇐ (scalar quantity has quality quality), (quality has quality type), (has quality is a transitive relation)
• scalar quantity has quality abstract entity ⇐ (scalar quantity has quality quality), (quality has quality abstract entity), (has quality is a transitive relation)
• scalar quantity has quality property ⇐ (validity is subclass of property), (scalar quantity has quality validity)
• scalar quantity has quality quality ⇐ (validity is a quality), (scalar quantity has quality validity)
• scalar quantity has quality validity ⇐ (scalar quantity has quality evidence), (evidence has quality validity), (has quality is a transitive relation)
• scalar quantity has quality source ⇐ (scalar quantity has quality natural science), (natural science has quality source), (has quality is a transitive relation)
• scalar quantity has quality scientific evidence ⇐ (scalar quantity has quality natural science), (natural science has quality scientific evidence), (has quality is a transitive relation)
• scalar quantity has quality evidence ⇐ (scalar quantity has quality natural science), (natural science has quality evidence), (has quality is a transitive relation)
• scalar quantity has quality source of information ⇐ (scalar quantity has quality natural science), (natural science has quality source of information), (has quality is a transitive relation)
• scalar quantity has quality natural science ⇐ (scalar magnitude is a natural science), (scalar quantity has quality scalar magnitude)
• scalar quantity has quality class ⇐ (existence is a class), (scalar quantity has quality existence)
• scalar quantity has quality sign system ⇐ (level of measurement is a sign system), (scalar quantity has quality level of measurement)
• scalar quantity has quality existence ⇐ (scalar quantity has quality entity), (entity has quality existence), (has quality is a transitive relation)
• scalar quantity has quality metrology ⇐ (scalar magnitude is a metrology), (scalar quantity has quality scalar magnitude)
• scalar quantity has quality entity ⇐ (taxonomic rank is a entity), (scalar quantity has quality taxonomic rank)
• scalar quantity is for example values can be added ⇐ (values can be added is a scalar quantity), (is a is inverse of is for example)
• abstract entity is for example scalar quantity ⇐ (scalar quantity is a abstract entity), (is a is inverse of is for example)
• scalar quantity is for example continuously changes \/ unstable identifier ⇐ (continuously changes \/ unstable identifier is a scalar quantity), (is a is inverse of is for example)
• scalar quantity is for example never changes ⇐ (never changes is a scalar quantity), (is a is inverse of is for example)
• scalar quantity is for example sometimes changes ⇐ (sometimes changes is a scalar quantity), (is a is inverse of is for example)
• class is for example scalar quantity ⇐ (scalar quantity is a class), (is a is inverse of is for example)
• scalar quantity has quality superclass ⇐ (scalar quantity is a class), (class has quality superclass)
• scalar quantity has quality taxonomic rank ⇐ (scalar quantity is a class), (class has quality taxonomic rank)
• scalar quantity is a abstract entity ⇐ (general quantity is subclass of abstract entity), (scalar quantity is a general quantity)
• scalar quantity is a class ⇐ (general quantity is subclass of class), (scalar quantity is a general quantity)
• continuously changes \/ unstable identifier is a scalar quantity ⇐ (Wikidata property change frequency is subclass of scalar quantity), (continuously changes \/ unstable identifier is a Wikidata property change frequency)
• values can be added is a scalar quantity ⇐ (Wikidata property change frequency is subclass of scalar quantity), (values can be added is a Wikidata property change frequency)
• sometimes changes is a scalar quantity ⇐ (Wikidata property change frequency is subclass of scalar quantity), (sometimes changes is a Wikidata property change frequency)
• never changes is a scalar quantity ⇐ (Wikidata property change frequency is subclass of scalar quantity), (never changes is a Wikidata property change frequency)
• scalar quantity has quality level of measurement ⇐ (scalar magnitude is a level of measurement), (scalar quantity has quality scalar magnitude)
• general quantity is for example scalar quantity ⇐ (scalar quantity is a general quantity), (is a is inverse of is for example)
• body surface area is subclass of scalar quantity ⇐ (body surface area is subclass of area), (area is subclass of scalar quantity), (is subclass of is a transitive relation)
• Wikidata property change frequency is subclass of scalar quantity ⇐ (Wikidata property change frequency is subclass of frequency), (frequency is subclass of scalar quantity), (is subclass of is a transitive relation)
• surface area is subclass of scalar quantity ⇐ (surface area is subclass of area), (area is subclass of scalar quantity), (is subclass of is a transitive relation)