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Possible Duplicate:
Proving that the sequence $F_{n}(x)=\sum\limits_{k=1}^{n} \frac{\sin{kx}}{k}$ is boundedly convergent on $\mathbb{R}$

So, in my calculus class (one I'm teaching, not taking), the sum $\sum_{n=1}^\infty \frac{\sin(n)}{n}$ has come up a few times. Unfortunately, as someone not exactly an expert in the convergence of sums, it seems to resist the few techniques I know. Certain none of the usual first year calculus tricks (integral test, alternating series test, ratio test, etc.) work, and the only more tricky technique, partial summation, I can think of doesn't seem to work either (one would need that $\sum_{n=1}^N\sin(n)$ is bounded, which I believe is false).

It seems like it should converge, since it switches sign quite often, but on the other hand, the harmonic series can mess with your intuition, so I don't have much trust in that. So, I ask to you:

Does this series converge?

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    Andrey Rekalo's [answer here](http://math.stackexchange.com/questions/13490/proving-that-the-sequence-f-nx-sum-limits-k-1n-frac-sinkxk-is) seems to answer your question.2011-05-03
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    According to Wolphram Alpha it converges to $\frac{1}{2}(\pi-1)$ http://www.wolframalpha.com/input/?i=Sum+1+to+infinity+sin%28n%29%2Fn2011-05-03
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    @Américo: in the thread I linked to there is a derivation of that limit.2011-05-03
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    @Theo: I started writing my comment before yours was visible. Now it is irrelevant.2011-05-03
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    Given the way the question is titled, I would answer "yes"2011-10-10
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    @RossMillikan: Not necessarily, the statement may be undecidable ( not likely in this case, but, in theory, possible).2017-12-10

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