Multiple of Divisor in Integral Domain Divides Multiple

Theorem
Let $\left({D, +, \times}\right)$ be an integral domain.

Let $a, b, c \in D$.

Let $a$ be a divisor of $b$, that is, $a \mathop \backslash b$.

Then $a \times c$ is a divisor of $b \times c$.

Proof
By definition, if $a \mathop \backslash b$ then $\exists d \in D: a \times d = b$.

Then $\left({a \times d}\right) \times c = b \times c$, that is:
 * $\left({a \times c}\right) \times d = b \times c$

which follows because $\times$ is commutative and associative in an integral domain.

Hence the result.