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How to compute

$\int_0^1\frac1{1-x^n}dx\;,$

where $n>0$?

2 Answers 2

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Since $x^n \leq x$ in $[0,1]$, $\int^1_0 \frac{1}{1-x^n} dx \geq \int^1_0 \frac{1}{1-x} dx$ and the right integral is divergent. So your integral diverges.

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    @RagibZaman Maybe I am not clear enough: The current direction of the inequality is wrong.2012-05-20
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Note that

$\frac 1 {1-x^n} = \frac 1 {n(1-x)} +f(x)$

for a function $f(x)$ that is continuous in the interval $[0,1]$, so the improper integral will exist for all $n \ge 1$ if and only if it exists for $n=1$.

But for $n=1$ you have an explicit antiderivative (using the logarithm), and you can check that it tends to infinity if you let the upper limit of the integral go to 1.