Definition:Composition of Relations

Definition
Let $\RR_1 \subseteq S_1 \times T_1$ and $\RR_2 \subseteq S_2 \times T_2$ be relations.

Then the composite of $\RR_1$ and $\RR_2$ is defined and denoted as:


 * $\RR_2 \circ \RR_1 := \set {\tuple {x, z} \in S_1 \times T_2: \exists y \in S_2 \cap T_1: \tuple {x, y} \in \RR_1 \land \tuple {y, z} \in \RR_2}$

Some authors write $\RR_2 \circ \RR_1$ as $\RR_2 \RR_1$.

It is clear that the composite relation $\RR_2 \circ \RR_1$ can also be defined as:


 * $\map {\RR_2 \circ \RR_1} {S_1} = \map {\RR_2} {\map {\RR_1} {S_1} }$

Note that:
 * $(1): \quad \RR_2 \circ \RR_1 \subseteq S_1 \times T_2$
 * $(2): \quad$ The domain of $\RR_2 \circ \RR_1$ equals the domain of $\RR_1$, that is, $S_1$
 * $(3): \quad$ The codomain of $\RR_2 \circ \RR_1$ equals the codomain of $\RR_2$, that is, $T_2$.

Also see

 * Image of Composite Relation
 * Preimage of Composite Relation
 * Composition of Mappings is Composition of Relations

Illustration
The following is an Euler diagram illustrating the relations between the various entities.


 * CompositionOfRelations.png

In the above:
 * $\Img \RR$ denotes the image of a relation $\RR$
 * $\Preimg \RR$ denotes the preimage of a relation $\RR$.