−3

Deductions

−3 has quality mathematical object ⇐ (−3 has quality inequality), (inequality has quality mathematical object), (has quality is a transitive relation)
−3 has quality type ⇐ (−3 has quality inequality), (inequality has quality type), (has quality is a transitive relation)
−3 has quality criterion ⇐ (−3 has quality inequality), (inequality has quality criterion), (has quality is a transitive relation)
−3 has quality quality ⇐ (−3 has quality inequality), (inequality has quality quality), (has quality is a transitive relation)
−3 has quality property ⇐ (−3 has quality inequality), (inequality has quality property), (has quality is a transitive relation)
−3 has quality taxonomic rank ⇐ (−3 has quality inequality), (inequality has quality taxonomic rank), (has quality is a transitive relation)
−3 has quality set ⇐ (−3 has quality inequality), (inequality has quality set), (has quality is a transitive relation)
−3 has quality entity ⇐ (−3 has quality inequality), (inequality has quality entity), (has quality is a transitive relation)
−3 has quality existence ⇐ (−3 has quality inequality), (inequality has quality existence), (has quality is a transitive relation)
−3 has quality type of property ⇐ (−3 has quality inequality), (inequality has quality type of property), (has quality is a transitive relation)
−3 has quality mathematical property ⇐ (−3 has quality inequality), (inequality has quality mathematical property), (has quality is a transitive relation)
−3 has quality relation ⇐ (−3 has quality inequality), (inequality has quality relation), (has quality is a transitive relation)
−3 has quality number of entities ⇐ (−3 has quality inequality), (inequality has quality number of entities), (has quality is a transitive relation)
−3 has quality abstract entity ⇐ (−3 has quality inequality), (inequality has quality abstract entity), (has quality is a transitive relation)
−3 has quality arity ⇐ (−3 has quality inequality), (inequality has quality arity), (has quality is a transitive relation)
−3 has quality superclass ⇐ (−3 has quality inequality), (inequality has quality superclass), (has quality is a transitive relation)
−3 has quality class ⇐ (−3 has quality inequality), (inequality has quality class), (has quality is a transitive relation)
−3 has quality inequality ⇐ (triangle inequality is subclass of inequality), (−3 has quality triangle inequality)
−3 has quality theorem ⇐ (triangle inequality is a theorem), (−3 has quality triangle inequality)
−3 has quality triangle inequality ⇐ (−3 has quality absolute value), (absolute value has quality triangle inequality), (has quality is a transitive relation)
−3 has quality real-valued function ⇐ (−3 is a complex number), (complex number has quality real-valued function)
−3 has quality absolute value ⇐ (−3 is a complex number), (complex number has quality absolute value)
complex number is for example −3 ⇐ (−3 is a complex number), (is a is inverse of is for example)
−3 is a complex number ⇐ (negative real number is subclass of complex number), (−3 is a negative real number)
hypercomplex number is for example −3 ⇐ (−3 is a hypercomplex number), (is a is inverse of is for example)
quaternion is for example −3 ⇐ (−3 is a quaternion), (is a is inverse of is for example)
−3 is a quaternion ⇐ (real number is subclass of quaternion), (−3 is a real number)
−3 is a hypercomplex number ⇐ (real number is subclass of hypercomplex number), (−3 is a real number)
real number is for example −3 ⇐ (−3 is a real number), (is a is inverse of is for example)
−3 is a real number ⇐ (negative real number is subclass of real number), (−3 is a negative real number)
negative real number is for example −3 ⇐ (−3 is a negative real number), (is a is inverse of is for example)
integer is for example −3 ⇐ (−3 is a integer), (is a is inverse of is for example)
non-negative integer is for example −3 ⇐ (−3 is a non-negative integer), (is a is inverse of is for example)
−3 is a integer ⇐ (non-negative integer is subclass of integer), (−3 is a non-negative integer)
−3 is a non-negative integer ⇐ (prime number is subclass of non-negative integer), (−3 is a prime number)
−3 is a negative real number ⇐ (negative integer is subclass of negative real number), (−3 is a negative integer)
square-free integer is for example −3 ⇐ (−3 is a square-free integer), (is a is inverse of is for example)
negative integer is for example −3 ⇐ (−3 is a negative integer), (is a is inverse of is for example)
prime number is for example −3 ⇐ (−3 is a prime number), (is a is inverse of is for example)
−3 is a square-free integer ⇐ (prime number is subclass of square-free integer), (−3 is a prime number)
−3 is a prime number ⇐ (3 is a prime number), (3 is opposite of −3)