Disjoint union
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In mathematics, the disjoint union of two sets X and Y is a set which contains "copies" of each of X and Y: it is denoted or, less often, .
There are injection maps in1 and in2 from X and Y to the disjoint union, which are injective functions with disjoint images.
If X and Y are disjoint, then the usual union is also a disjoint union. In general, the disjoint union can be realised in a number of ways, for example as
The disjoint union has a universal property: if there is a set Z with maps and , then there is a map such that the compositions and .
General unions
The disjoint union of any finite number of sets may be defined inductively, as
The disjoint union of a general family of sets Xλ as λ ranges over a general index set Λ may be defined as
References
- Paul Halmos (1960). Naive set theory. Van Nostrand Reinhold, 24.
- Keith J. Devlin (1979). Fundamentals of Contemporary Set Theory. Springer-Verlag, 12. ISBN 0-387-90441-7.