Integration by Parts: \int{\frac{xcosx}{sin^2x}dx}

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SUMMARY

The integral \(\int{\frac{x \cos x}{\sin^2 x}dx}\) can be evaluated using integration by parts, specifically by selecting \(u = x\) and \(dv = \frac{\cos x}{\sin^2 x}dx\). The derivative \(du\) simplifies to \(dx\), while \(v\) can be computed as \(\int{\frac{\cos x}{\sin^2 x}dx}\), which requires a substitution approach. A suggested substitution is \(u = \frac{1}{\sin x}\), leading to \(du = -\frac{\cos x}{\sin^2 x}dx\), facilitating the integration process.

PREREQUISITES
  • Understanding of integration by parts formula: \(\int{udv} = uv - \int{v du}\)
  • Familiarity with trigonometric identities and functions, particularly sine and cosine
  • Knowledge of u-substitution techniques in calculus
  • Ability to apply the chain rule for differentiation
NEXT STEPS
  • Practice integration by parts with various functions to solidify understanding
  • Explore u-substitution methods for integrating trigonometric functions
  • Study the properties and derivatives of trigonometric functions
  • Learn advanced integration techniques, including integration of rational functions involving trigonometric identities
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Students and educators in calculus, particularly those focusing on integration techniques, as well as anyone seeking to enhance their problem-solving skills in mathematical analysis.

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Homework Statement




Use integration by parts to evaluate the following integral:

<br /> \int{\frac{x cos x}{sin^2 x}dx}<br /> <br />

Homework Equations



<br /> \int{udv} = uv - \int{v du}<br />


The Attempt at a Solution



Select U according to the order:

L - logarithmic, a - algebraic, t - trigonometric, e - exponential.

So possible contender for u would by x, leaving dv = \frac{cosx}{sin^2x}

so du/dx= 1 => du = dx, v = \int{\frac{cosx}{sin^2x}}

= \int\frac{1}{sinx}*\frac{cosx}{sinx} = \int\frac{1}{sinx}*cotx

That's kind of where I'm lost if anyone can help, I'd really appreciate it.

Thanks!
 
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The integral
\int \dfrac{\cos x}{\sin^2 x}\,dx​

can be done with a substitution. Do you see how?
 
Would i be on the right track to let u = 1/sinx and dv = cotx dx so v = ln|sinx|? Maybe it sounds stupid but I can't think right now how to go about differentiating 1/sinx. Would it be something like the chain rule, so -cosx * (1/sinx) * err.. a bit lost here again sorry!
 
Ah, you are trying to integrate by parts again, but I should have been more specific -- it can be done by u-substitution. That is, you let u = something and du = something dx and substitute. If we think about this carefully, then it is true that this is argument is supported by the chain rule.
 
jetpac said:
Would i be on the right track to let u = 1/sinx and dv = cotx dx so v = ln|sinx|? Maybe it sounds stupid but I can't think right now how to go about differentiating 1/sinx. Would it be something like the chain rule, so -cosx * (1/sinx) * err.. a bit lost here again sorry!

So I like how in your first post, you went ahead and wrote out the integration by parts [let v = int(cos(x)/(sin(x)^2)dx)]:

x*v-int(v dx)

Clearly, from there you need to be able to do the integration in v. I also like how you started considering cot(x)...maybe if you rewrote the integrand of v using cot(x) and another function, you'll notice a familiar derivative?

After that, you need a bit of finesse to finish int(v dx)...hint: multiply by "1" in order to make a u-sub.
 

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