Tower Law for Subgroups/Proof 1

Proof
Let $p = \left[{G : H}\right]$, $q = \left[{H : K}\right]$.

By hypothesis these numbers are finite.

Therefore, there exist $g_1, \ldots, g_p \in G$ such that $G$ is a disjoint union: $\displaystyle G = \bigsqcup_{i \mathop = 1}^p g_i H$

Similarly, there exist $h_1,\ldots,h_q \in H$ such that $H$ is a disjoint union: $\displaystyle H = \bigsqcup_{j \mathop = 1}^q h_j K$

Thus:

This expression for $G$ is the disjoint union of $pq$ cosets.

Therefore the number of elements of the coset space is:
 * $\left[{G : K}\right] = p q = \left[{G : H}\right] \left[{H : K}\right]$