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I need to calculate the following integral for my homework, but I dont know how. If someone show me step by step solution I would really appreciate it. $\int \frac {1}{\sin^3(x)} dx$

  • 3
    Note $1/\sin^3 x=\csc^3 x$. Evaluating your integral is similar to evaluating $\int \sec^3 x\,dx$. To see how to do this, see [here](http://en.wikipedia.org/wiki/Integral_of_secant_cubed).2012-12-14

4 Answers 4

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There is a standard first-year calculus response. Rewrite the integrand as $\dfrac{\sin x}{\sin^4 x}=\dfrac{\sin x}{(1-\cos^2 x)^2}$. The substitution $u=\cos x$ leaves us integrating $-\dfrac{1}{(1-u^2)^2}$. Now partial fractions.

There are in many cases more efficient procedures, but one can in principle handle in this way all $\int \sin^m x\cos^n x\,dx,$ where $m$ and $n$ are integers and at least one of $m$ and $n$ is odd.

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Substitute $u=\tan\frac{x}{2}$. Then $\frac{x}{2}=\arctan u\Rightarrow x=2\arctan u$. This means $\frac{dx}{du}=\frac{2}{1+u^2}$ In addition, $\sin x=\frac{2u}{u^2+1}$ Then, $\int\frac{1}{\sin^3x}dx=\frac{2}{8}\int\frac{(u^2+1)^2}{u^3}du=\frac{1}{4}\int u+\frac{2}{u}+\frac{1}{u^3}du$ which I think you know how to solve.

What I used here is the classic but always useful Tangent half-angle formula

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integral csc^3(x) dx

Use the reduction formula,


-cos(x) sin^2(x)^((m-1)/2) csc^(m-1)(x) 2F1(1/2, (m+1)/2, 3/2, cos^2(x)) = -(cos(x) csc^(m-1)(x))/(m-1) + (m-2)/(m-1)-cos(x) sin^2(x)^((m-3)/2) \csc^(m-3)(x) 2F1(1/2, (m-1)/2, 3/2, cos^2(x)), where m = 3:


= 1/2 integral csc(x) dx-1/2 cot(x) csc(x)

The integral of $\csc(x) \,\,\text{is} -\log(\cot(x)+\csc(x)):$ = $-1/2 (\cot(x) \csc(x))-1/2 \log(\cot(x)+\csc(x))+$constant


Factor the answer a different way:

Answer: $= 1/2 (-\cot(x) \csc(x)-\log(\cot(x)+\csc(x)))+\text{constant}$


Sorry for the mess.

  • 2
    @jay It's easy to use latex, if you need to find quick mainstream LaTeX symbols, you can search them visually with [this render](http://itools.subhashbose.com/educational-tools/latex-renderer-n-editor.html), another useful tool that would help you to do that is [Detextify](http://detexify.kirelabs.org/classify.html), you draw the symbol and Detextify tries to guess it for you.2012-12-14
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Make the change of variables $ \csc(x) = u $, which implies

$ \int \csc(\theta)^3 d \theta = -\int \frac{{u^2}}{\sqrt{u^2-1}} du \,. $

Following it with the change of variables $ u = \sin(t) $ yields

$ -\int \frac{{u^2}}{\sqrt{u^2-1}} du = i \int \sin(t)^2\,dz= \dots. $

Note: You can use integration by parts to evaluate the integral

$ -\int \frac{{u^2}}{\sqrt{u^2-1}} du . $