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

$$A \cup B =$$

{ accumulating, achiever, explorer, killer, reformulating, socializer, trans-framing, uni-framing }

Symmetric Difference

$$A \ominus B =$$

{ accumulating, achiever, explorer, killer, reformulating, socializer, trans-framing, uni-framing }

Difference

$$A - B =$$

{ accumulating, reformulating, trans-framing, uni-framing }

Difference

$$B - A =$$

{ achiever, explorer, killer, socializer }

Cartesian Product

$$A \times B =$$

{ (accumulating, achiever),
(accumulating, explorer),
(accumulating, killer),
(accumulating, socializer),
(reformulating, achiever),
(reformulating, explorer),
(reformulating, killer),
(reformulating, socializer),
(trans-framing, achiever),
(trans-framing, explorer),
(trans-framing, killer),
(trans-framing, socializer),
(uni-framing, achiever),
(uni-framing, explorer),
(uni-framing, killer),
(uni-framing, socializer) }

Polynym Marvin Minsky strategies for learning Source Marvin Minsky Area AI Mode part Depth 4 User dane	vs.	Polynym Bartle taxonomy of player types gamer Source Richard Bartle Area Psychology Mode type Depth 4 User scotty
4 parts of strategies for learning	⊥	4 types of gamer
uni-framing trans-framing reformulating accumulating	⊥	killer achiever socializer explorer

Polynym Math

Pstrategies for learning ⊥ Pgamer

Equality

Subset

Superset

Intersection

Union

Symmetric Difference

Difference

Difference

Cartesian Product

strategies for learning

vs.

gamer

⊥

⊥

P_{strategies for learning} ⊥ P_gamer