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How to evaluate this limit $\sum_{n=1}^\infty\frac{1}{n\sqrt[n]{n}}$ and its convergence?

I tried ratio test, root test, Raabe's test. However, I'm not getting anywhere. Can you please help me? Thank you

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    @J.M. I wonder why you prefer $\sqrt[n]{n}\lt\log n$ for every $n\gt4$ to $\sqrt[n]{n}\lt2$ for every $n\geqslant1$...2012-01-10

2 Answers 2

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For $n$ sufficiently large, $\root n\of n<2$; so, ${1\over n\,\root n\of n}>{1\over 2n}$ for sufficiently large $n$.

Since the series $\sum\limits_{n=1}^\infty {1\over 2n}$ diverges (it is essentially the harmonic series), it follows from the Comparison test that the series $\sum\limits_{n=1}^\infty {1\over n\,\root n\of n}$ diverges.

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    *For $n$ sufficiently large*... Read: *For every $n\geqslant1$*.2012-01-11
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Hint: search an equivalent of $\sqrt[n]{n}$ as $n$ goes to $+\infty$ and use the Limit comparison test.