Nymology :: Polynym Math

Equality

$$A \neq B$$

A is not equal to B

Subset

$$A \not\subseteq B$$

A is not a subset of or equal to B

Superset

$$A \not\supseteq B$$

A is not a superset of or equal to B

Intersection

$$A \cap B =$$

{ }

Union

$$A \cup B =$$

{ Liskov substitution, concrete example, dependency inversion, duel coding, elaboration, interface segregation, interleaving, open-closed, retrieval, single responsibility, spaced practice }

Symmetric Difference

$$A \ominus B =$$

{ Liskov substitution, concrete example, dependency inversion, duel coding, elaboration, interface segregation, interleaving, open-closed, retrieval, single responsibility, spaced practice }

Difference

$$A - B =$$

{ Liskov substitution, dependency inversion, interface segregation, open-closed, single responsibility }

Difference

$$B - A =$$

{ concrete example, duel coding, elaboration, interleaving, retrieval, spaced practice }

Cartesian Product

$$A \times B =$$

{ (Liskov substitution, concrete example),
(Liskov substitution, duel coding),
(Liskov substitution, elaboration),
(Liskov substitution, interleaving),
(Liskov substitution, retrieval),
(Liskov substitution, spaced practice),
(dependency inversion, concrete example),
(dependency inversion, duel coding),
(dependency inversion, elaboration),
(dependency inversion, interleaving),
(dependency inversion, retrieval),
(dependency inversion, spaced practice),
(interface segregation, concrete example),
(interface segregation, duel coding),
(interface segregation, elaboration),
(interface segregation, interleaving),
(interface segregation, retrieval),
(interface segregation, spaced practice),
(open-closed, concrete example),
(open-closed, duel coding),
(open-closed, elaboration),
(open-closed, interleaving),
(open-closed, retrieval),
(open-closed, spaced practice),
(single responsibility, concrete example),
(single responsibility, duel coding),
(single responsibility, elaboration),
(single responsibility, interleaving),
(single responsibility, retrieval),
(single responsibility, spaced practice) }

Polynym SOLID SOLID object-oriented programming Source Robert C. Martin Area Programming Mode part Depth 5 User scotty	vs.	Polynym https://www.trueed... Strategies for effective learning Source Joseph Griffiths Area Education Mode type Depth 6 User dane
5 parts of SOLID object-oriented programming	⊥	6 types of Strategies for effective learning
single responsibility open-closed Liskov substitution interface segregation dependency inversion	⊥	spaced practice interleaving retrieval elaboration concrete example duel coding

Polynym Math

PSOLID object-oriented programming ⊥ PStrategies for effective learning

Equality

Subset

Superset

Intersection

Union

Symmetric Difference

Difference

Difference

Cartesian Product

SOLID object-oriented programming

vs.

Strategies for effective learning

⊥

⊥

P_{SOLID object-oriented programming} ⊥ P_{Strategies for effective learning}