Intersection: Difference between revisions

From Citizendium
Jump to navigation Jump to search
imported>Richard Pinch
imported>Richard Pinch
(definition of disjoint sets)
Line 3: Line 3:
:<math> A \cap B = \{ x : x \in A \wedge x \in B \} , \, </math>
:<math> A \cap B = \{ x : x \in A \wedge x \in B \} , \, </math>


where <math>\wedge</math> denotes logical and.
where <math>\wedge</math> denotes [[logical and]].  Two sets are '''disjoint''' if their intersection is the [[empty set]].


==Properties==
==Properties==

Revision as of 13:52, 14 November 2008

In set theory, the intersection of two sets is the set of elements that they have in common:

where denotes logical and. Two sets are disjoint if their intersection is the empty set.

Properties

The intersection operation is:

  • associative : ;
  • commutative : .

General intersections

Finite intersections

The intersection of any finite number of sets may be defined inductively, as

Infinite intersections

The intersection of a general family of sets Xλ as λ ranges over a general index set Λ may be written in similar notation as

We may drop the indexing notation and define the intersection of a set to be the set of elements contained in all the elements of that set:

In this notation the intersection of two sets A and B may be expressed as

The correct definition of the intersection of the empty set needs careful consideration.

See also

References