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In set theory, union (denoted as ∪) is a set operation between two sets that forms a set containing the elements of both sets.

Formally, union A ∪ B means that if a ∈ A ∪ B, then a ∈ A ∨ a ∈ B, where ∨ - is logical or. We see this connection between ∪ and ∨ symbols.

Properties

The union operation is:

• associative - (A ∪ B) ∪ C = A ∪ (B ∪ C)
• commutative - A ∪ B = B ∪ A.

General unions

Finite unions

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

${\displaystyle \bigcup _{i=1}^{n}X_{i}=X_{1}\cup (X_{2}\cup (X_{3}\cup (\cdots X_{n})\cdots ))).\,}$

Infinite unions

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

${\displaystyle \bigcup _{\lambda \in \Lambda }X_{\lambda }=\{x:\exists \lambda \in \Lambda ,~x\in X_{\lambda }\}.\,}$

We may drop the indexing notation and define the union of a set to be the set of elements of the elements of that set:

${\displaystyle \bigcup X=\{x:\exists Y\in X,~x\in Y\}.\,}$

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

${\displaystyle A\cup B=\bigcup \{A,B\}.\,}$

See also

• Disjoint union
• Intersection

References

• Paul Halmos (1960). Naive set theory. Van Nostrand Reinhold.  Section 4.
• Keith J. Devlin (1979). Fundamentals of Contemporary Set Theory. Springer-Verlag, 5,10. ISBN 0-387-90441-7.