I have the folowing problem at hand:
Find all singularities of $\sin\left(\frac{1}{\cos\left(\frac{1}{z}\right)}\right)$ and determine their type.
Now I believe the set of singularities are $\left\{ \frac{\pi}{2} + n \pi \colon n \in \mathbb{Z} \right\}$. But I find it hard to figure out what type they are from removable, poles, essential or not isolated at all. Can anyone help me?
Singularities are the points $z$ such that $\cos (1/z)=0, $ which occurs when $1/z=\pi/2+n\pi$ so that you can write the values of $z$ now, where $n$ is any integer.
Second part: We have Tylor series expansion for $\sec z$ by which we can get the Laurent series expansion for $1/\cos (1/z)$ with infinitely many terms with negative powers of $z$. It is very well explained over here Singularities of $ {1}/{\cos(\frac{1}{z})}$
Therefore Sine function after composition has Laurent series expansion at $z=0$ with infinitely many terms having negative powers of $z.$ Hence the singularities are of essential type.