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Possible Duplicate:
Different methods to compute $\sum\limits_{n=1}^\infty \frac{1}{n^2}$
Does $\sum\limits_{k=1}^n 1 / k ^ 2$ converge when $n\rightarrow\infty$?

I read my book of EDP, and there appears the next serie $$\sum _{k=1} \dfrac{1}{k^2} = \dfrac{\pi^2}{6}$$ And, also, we prove that this series is equal $\frac{\pi^2}{6}$ for methods od analysis of Fourier, but...

Do you know other proof, any more simple or beautiful?

  • 4
    That should be $\pi^2/6$.2012-05-13
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    See [here](http://math.stackexchange.com/questions/8337/different-methods-to-compute-sum-limits-n-1-infty-frac1n2)2012-05-13
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    @Martin: This question asks for methods to calculate the sum, not to prove its convergence. This is at least how I read this question.2012-05-13
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    @Asaf I think you' right. Although, the body is different from the title. Which explains why I thought that the OP asks about convergence only. (It's not that important now, since we found *duplicates* for both possible meanings.)2012-05-13
  • 0
    The title originally said **Prove that this series converges**2012-05-14

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