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
$$A \cup B =$$
{ anchoring and adjustment, availability, representativeness, to not commit adultery, to not intoxicate, to not kill, to not lie, to not steal }
Symmetric Difference
$$A \ominus B =$$
{ anchoring and adjustment, availability, representativeness, to not commit adultery, to not intoxicate, to not kill, to not lie, to not steal }
Difference
$$A - B =$$
{ anchoring and adjustment, availability, representativeness }
Difference
$$B - A =$$
{ to not commit adultery, to not intoxicate, to not kill, to not lie, to not steal }
Cartesian Product
$$A \times B =$$
{ (anchoring and adjustment, to not commit adultery),
(anchoring and adjustment, to not intoxicate),
(anchoring and adjustment, to not kill),
(anchoring and adjustment, to not lie),
(anchoring and adjustment, to not steal),
(availability, to not commit adultery),
(availability, to not intoxicate),
(availability, to not kill),
(availability, to not lie),
(availability, to not steal),
(representativeness, to not commit adultery),
(representativeness, to not intoxicate),
(representativeness, to not kill),
(representativeness, to not lie),
(representativeness, to not steal) }
Heuristics in judgment and decision-making