Number of Distinct Conjugate Subsets is Index of Normalizer/Proof 2

Proof
Let $G$ act on its power set $\powerset G$ by the rule:
 * $\forall g \in G, S \in \powerset G: g * S := S^{g^{-1} } = \set {x \in G: g^{-1} x g \in S}$

That is, the conjugacy action on subsets.

From Conjugacy Action on Subsets is Group Action, $*$ is a group action.

The orbit of $S \in \powerset G$ is the conjugacy class of $S$.

That is, $\Orb S$ is the set of distinct subsets of $G$ which are conjugate to $S$

The stabilizer of $S$ is its normalizer $\map {N_G} S$.

From the Orbit-Stabilizer Theorem:
 * $\order {\Orb x} = \index G {\Stab x} = \dfrac {\order G} {\order {\Stab x} }$

from which the result follows directly.