I'll write it formally:<br>
Let $f(1,x) = \sin(x)$,<br>
Let $f(n+1,x) = \sin\big(f(n,x)\big)$ for $n\in \Bbb N$ with $n>1$.<br>
What is the limit as $n \to \infty$?

It's fairly easy to prove that the absolute value of $f(n,x)$ is decreasing for every constant $x$ as $n$ is increasing, so the limit exists. From what I calculated, it seems like $f(\infty,x)= 0$ for all $x$. Does someone have a proof for that?