Internal Group Direct Product Commutativity/Proof 1

Proof
Let $G$ be the internal group direct product of $H_1$ and $H_2$.

Then by definition the mapping:
 * $C: H_1 \times H_2 \to G: \map C {h_1, h_2} = h_1 \circ h_2$

is a (group) isomorphism from the cartesian product $\struct {H_1, \circ \restriction_{H_1} } \times \struct {H_2, \circ \restriction_{H_2} }$ onto $\struct {G, \circ}$.

Let the symbol $\circ$ also be used for the operation induced on $H_1 \times H_2$ by $\circ \restriction_{H_1}$ and $\circ \restriction_{H_2}$.

Let $h_1 \in H_1, h_2 \in H_2$.

Then: