Complex Sine Function is Unbounded

Theorem
Let $\sin: \C \to \C$ be the complex sine function.

Then $\sin$ is unbounded.

Proof
By Complex Sine Function is Entire, we have that $\sin$ is a entire function.

that $\sin$ was a bounded function.

Then, by Liouville's Theorem, we would have that $\sin$ is a constant function.

However we have, for instance, by Sine of Zero is Zero:


 * $\sin 0 = 0$

and by Sine of 90 Degrees:


 * $\sin \dfrac \pi 2 = 1$

Therefore, $\sin$ is clearly not a constant function, a contradiction.

We hence conclude, by Proof by Contradiction, that $\sin$ is unbounded.