Unitary Module of All Mappings is Unitary Module

Theorem
Let $\struct {R, +_R, \times_R}$ be a ring with unity whose unity is $1_R$.

Let $\struct {G, +_G, \circ}_R$ be a unitary $R$-module.

Let $S$ be a set.

Let $\struct {G^S, +_G', \circ}_R$ be the module of all mappings from $S$ to $G$.

Then $\struct {G^S, +_G', \circ}_R$ is a unitary module.

Proof
From Module of All Mappings is Module, we have that $\struct {G^S, +_G', \circ}_R$ is an $R$-module.

To show that $\struct {G^S, +_G', \circ}_R$ is a unitary $R$-module, we verify the following:


 * $\forall f \in G^S: 1_R \circ f = f$

Let $\struct {G, +_G, \circ}_R$ be a unitary $R$-module.

Then:
 * $\forall x \in G: 1_R \circ x = x$

Thus:

Hence the result.