would like a hint with the integral $$\int \frac{\cos(x) - 1}{x^2}\mathrm dx$$Thanks
How to evaluate $\int \frac{\cos(x) - 1}{x^2}\mathrm dx$?
3
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calculus
integration
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3Do you mean $\frac{\cos(x)-1}{x^2}$ or ${\cos(x)}-\frac{1}{x^2}$ ? – 2011-04-27
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3I will assume that you're actually considering the integral $\int_{0}^{\infty} \frac{\cos x - 1}{x^2} \, dx$. If you are cognizant of $\int_{0}^{\infty} \frac{\sin x}{x} \, dx = \frac{\pi}{2}$, you may simply apply integration by parts. – 2011-04-27
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2If you meant the first of lhf's choices, you'll require the (nonelementary) [sine integral](http://mathworld.wolfram.com/SineIntegral.html). – 2011-04-27
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1If you mean $\frac{\cos x - 1}{x^2}$, Wolfram Alpha returns something containing the sine integral, so it's probably not solvable with more elementary functions. – 2011-04-27
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0sos440's hint of using integration by parts also applies if you're after the indefinite integral; your expression will then involve $\int\frac{\sin\;x}{x}\mathrm dx$, and this is where the sine integral comes in. – 2011-04-27
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0You can easely get an aswer to this integral as a MacLaurin series, depending by what you want to do with this integral that could be the way of doing it ... or not.... – 2011-05-29
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0@Theo Buehler : I hear you loud and clear, WILCO – 2011-05-29