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Need help with checking: $\sum\limits_{n=1}^{\infty} \frac{(-1)^{n+1}\sin(nx)}{n}$

for point-wise convergence and uniform convergence of: ${-\pi} \leq x \leq {\pi}$.

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    (to detail a little) the values at $-\pi$ and $\pi$ will be $0$ because of the jump from $-\frac {\pi}2$ to $+\frac {\pi}2$. At a jump discontinuity of first order the value is at the middle ($\frac {-\pi/2+\pi/2}2$). (my first comment should have been $\frac x2$ in $(-\pi,\pi)$ and not $[-\pi,\pi]$...)2012-08-09

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You can use Abel's uniform convergence test. See here. Or you can use the following theorem:

Theorem: The Fourier series of a 2π-periodic continuous and piecewise smooth function converges uniformly.