Conjugacy Action on Subgroups is Group Action

Theorem
Let $\left({G, \circ}\right)$ be a group whose identity is $e$.

Let $X$ be the set of all subgroups of $G$.

For any $H \le G$ and for any $g \in G$, we define:
 * $\forall g \in G, H \in X: g * H = g \circ H \circ g^{-1}$

This is a group action.

Proof
Clearly GA-1 is fulfilled as $e * H = H$.

GA-2 is shown to be fulfilled thus:

Also see

 * Stabilizer of Conjugacy Action on Subgroup is Normalizer
 * Orbit of Conjugacy Action on Subgroup is Set of Conjugate Subgroups