Symmetric Difference with Intersection forms Boolean Ring

Theorem
Let $S$ be a set.

Let:
 * $\symdif$ denote the symmetric difference operation
 * $\cap$ denote the set intersection operation
 * $\powerset S$ denote the power set of $S$.

Then $\struct {\powerset S, \symdif, \cap}$ is a Boolean ring.

Proof
From Symmetric Difference with Intersection forms Ring:
 * $\struct {\powerset S, \symdif, \cap}$ is a commutative ring with unity.

From Set Intersection is Idempotent, $\cap$ is an idempotent operation on $S$.

Hence the result by definition of Boolean ring.