Reflexive Circular Relation is Equivalence

Theorem
Let $\RR \subseteq S \times S$ be a reflexive and circular relation in $S$.

Then $\RR$ is an equivalence relation.

Proof
To prove a relation is an equivalence, we need to prove it is reflexive, symmetric and transitive.

So, checking in turn each of the criteria for equivalence:

Reflexive
We have that $\RR$ is reflexive.

Symmetric
By reflexivity:
 * $\tuple {x, x} \in \RR$

If $\tuple {x, y} \in \RR$ then by the definition of circular relation $\tuple {y, x} \in \RR$.

Hence $\RR$ is symmetric.

Transitive
Let $\tuple {x, y}, \tuple {y, z} \in \RR$.

By definition of circular relation:
 * $\tuple {z, x} \in \RR$

By $\RR$ being symmetric:
 * $\tuple {x, z} \in \RR$

Hence $\RR$ is transitive.

Thus is $\RR$ is reflexive, symmetric and transitive, and therefore by definition an equivalence.