square-free integer

Deductions

• square-free integer has quality class ⇐ (quality is a class), (square-free integer has quality quality)
• square-free integer has quality abstract entity ⇐ (type is a abstract entity), (square-free integer has quality type)
• composite number is subclass of square-free integer ⇐ (prime number is subclass of square-free integer), (prime number is opposite of composite number)
• square-free integer has quality entity ⇐ (taxonomic rank is a entity), (square-free integer has quality taxonomic rank)
• square-free integer is for example ½ ⇐ (½ is a square-free integer), (is a is inverse of is for example)
• class is for example square-free integer ⇐ (square-free integer is a class), (is a is inverse of is for example)
• entity is for example square-free integer ⇐ (square-free integer is a entity), (is a is inverse of is for example)
• square-free integer has quality superclass ⇐ (square-free integer is a class), (class has quality superclass)
• square-free integer has quality taxonomic rank ⇐ (square-free integer is a class), (class has quality taxonomic rank)
• square-free integer has quality type ⇐ (square-free integer is a class), (class has quality type)
• square-free integer has quality property ⇐ (square-free integer is a class), (class has quality property)
• square-free integer has quality quality ⇐ (square-free integer is a class), (class has quality quality)
• square-free integer has quality criterion ⇐ (square-free integer is a class), (class has quality criterion)
• square-free integer has quality existence ⇐ (square-free integer is a entity), (entity has quality existence)
• square-free integer is a entity ⇐ (class is subclass of entity), (square-free integer is a class)
• square-free integer is a class ⇐ (type of integer is subclass of class), (square-free integer is a type of integer)
• ½ is a square-free integer ⇐ (2 is a square-free integer), (2 is opposite of ½)
• square-free integer is for example 3 ⇐ (3 is a square-free integer), (is a is inverse of is for example)
• square-free integer is for example −3 ⇐ (−3 is a square-free integer), (is a is inverse of is for example)
• square-free integer is for example −2 ⇐ (−2 is a square-free integer), (is a is inverse of is for example)
• square-free integer is for example 2 ⇐ (2 is a square-free integer), (is a is inverse of is for example)
• type of integer is for example square-free integer ⇐ (square-free integer is a type of integer), (is a is inverse of is for example)
• square-free integer is subclass of non-negative integer ⇐ (square-free integer is subclass of positive integer), (positive integer is subclass of non-negative integer), (is subclass of is a transitive relation)
• 3 is a square-free integer ⇐ (prime number is subclass of square-free integer), (3 is a prime number)
• −3 is a square-free integer ⇐ (prime number is subclass of square-free integer), (−3 is a prime number)
• −2 is a square-free integer ⇐ (prime number is subclass of square-free integer), (−2 is a prime number)
• 2 is a square-free integer ⇐ (prime number is subclass of square-free integer), (2 is a prime number)