libelec
Oct31-09, 04:27 PM
1. The problem statement, all variables and given/known data
Find and classify the singularities in C* of f(z) = \frac{{\pi z - \pi {z^3}}}{{\sin (\pi z)}}, and give information about Res(f, 0) and Res(f, infinity)
3. The attempt at a solution
I found that the singularities in C are z = n, with n \in Z, n\neq 0, n\neq 1. These are simple poles, while z=0 and z=1 are removable singularities (therefore, Res(f, 0)=0).
Now, in C*: what I thought is that, since the poles tend to infinity when n tends to infinity, then there is a non-isolated singularity.
But then I don't know how to calculate Res(f, infinity).
Did I think that the right way or what am I missing?
Thanks.
Find and classify the singularities in C* of f(z) = \frac{{\pi z - \pi {z^3}}}{{\sin (\pi z)}}, and give information about Res(f, 0) and Res(f, infinity)
3. The attempt at a solution
I found that the singularities in C are z = n, with n \in Z, n\neq 0, n\neq 1. These are simple poles, while z=0 and z=1 are removable singularities (therefore, Res(f, 0)=0).
Now, in C*: what I thought is that, since the poles tend to infinity when n tends to infinity, then there is a non-isolated singularity.
But then I don't know how to calculate Res(f, infinity).
Did I think that the right way or what am I missing?
Thanks.