Operation Induced by Permutation on Magma is Closed

Theorem
Let $\struct {S, \circ}$ be a magma.

Let $\sigma: S \to S$ be a permutation on $S$.

Let $\circ_\sigma$ be the operation on $S$ induced by $\sigma$:
 * $\forall x, y \in S: x \circ_\sigma y := \map \sigma {x \circ y}$

Then $\circ_\sigma$ is closed on $S$.

Proof
Let $a, b \in S$.

By definition of magma, $\circ$ is closed on $S$.

Thus:
 * $a \circ b \in S$

Hence:
 * $a \circ b \in \Dom \sigma$

As $\sigma$ is a permutation on $S$, it follows directly that:
 * $\map \sigma {a \circ b} \in S$

The operation on $S$ induced by $\sigma$ is well-defined. In other words, $\circ_\sigma$ is well-defined.

Hence:


 * $a \circ_\sigma b \in S$