User:Jshflynn/Product of Languages is Language

Theorem
Let $\Sigma$ be an alphabet, $\circ$ denote concatenation and $\circ_L$ denote the language product operation.

Then the product of two formal languages over $\Sigma$ is also a formal language over $\Sigma$.

Proof
Let $V$ and $W$ be formal languages over $\Sigma$.

Let $x \in V \circ_L W$.

Then by the definition of language product this implies there exists a $y \in V$ and $z \in W$ such that $x = y \circ z$.

From Length of Concatenation:


 * $\operatorname{len}(x) = \operatorname{len}(y) + \operatorname{len}(z)$

And by the definition of concatenation:

$\forall i: x_i \in \Sigma$.

So by the definition of language power:

$x \in \Sigma^{\operatorname{len}(y) + \operatorname{len}(z)}$

Finally, by the definition of $\Sigma^{*}$, $V \circ_L W \subseteq \Sigma^{*}$ and so is a formal language over $\Sigma$.