Zeroes of Analytic Function are Isolated

Theorem
Let $$U \subset \C \ $$ be some open set and let $$f \ $$ be an analytic function defined on $$U \ $$. Then either $$f \ $$ is a constant function, or the set $$\left\{{z\in U|f(z)=0}\right\} \ $$ is totally disconnected.

Proof
Suppose $$f \ $$ has no zeroes in $$U \ $$; then the set described in the theorem is the empty set, and we're done. So we suppose $$\exists z_0 \in U \ $$ such that $$f(z_0) = 0 \ $$.

Since $$f \ $$ is analytic, there is a Taylor series for $$f \ $$ at $$z_0 \ $$ which converges for $$|z-z_0|0 \ $$ so that $$\forall z \ $$ such that $$|z-z_0|<\epsilon, |g(z)-a_k|<\frac{|a_k|}{2} \ $$. But then $$g(z) \ $$ can't possibly be $$0 \ $$ in that disk.