Relation composition: Difference between revisions

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In set theory, composition is an operation on relations.

Let R be a relation between X and Y and S a relation S between Y and Z. The composite relation R.S between X and Z is defined by

x~{R\circ S}~z\Leftrightarrow \exists y\in Y,xRy{\mbox{ and }}ySz.\,

If we equate a relation with its graph, then we may write

R\circ S=\{(x,z)\in X\times Z:\exists y\in Y,~(x,y)\in R{\hbox{ and }}(y,z)\in S\}.\,

Function composition may be regarded as relation composition on functional relations.

Revision as of 17:40, 6 February 2009 (view source) imported>Bruce M. Tindall mNo edit summary ← Older edit		Latest revision as of 07:00, 11 October 2024 (view source) Suggestion Bot (talk \| contribs) mNo edit summary
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	:<math> R \circ S = \{ (x,z) \in X \times Z : \exists y \in Y, ~ (x,y) \in R \hbox{ and } (y,z) \in S \} . \, </math>		:<math> R \circ S = \{ (x,z) \in X \times Z : \exists y \in Y, ~ (x,y) \in R \hbox{ and } (y,z) \in S \} . \, </math>

	[[Function composition]] may be regarded as relation composition on functional relations.		[[Function composition]] may be regarded as relation composition on functional relations.[[Category:Suggestion Bot Tag]]