Integral

shadypalm88 · March 04, 2006, 11:54 PM

I've been stuck on this for some time now (sexy LaTeX rendering):

The only general techniques that I've been taught (excluding blind guessing) are substitution and integration by parts. Somewhat similar ones like

are much easier. With a substitution w = cos(2θ) it solves for:

But this one I seemingly can't crack. Any advice?

Yoni · March 05, 2006, 12:51 AM

That LaTeX is hot.

Blindly integrating by parts is not the best way to solve that integral. Try using some trigonometric identities.
Start with: cos^2(z) = 1 - sin^2(z) ...
Continue with integration by parts, then think how to continue (this is a tricky one, so post again if you need more help).

rabbit · March 05, 2006, 09:01 AM

That first one is relatively simple. You can use the S[u du] property on it, and you get S[sin³(z)cos³(z) dz] = -cos³(z) + C
Well..assuming I did it correctly that is.

shadypalm88 · March 05, 2006, 10:48 AM

Quote from: Yoni on March 05, 2006, 12:51 AM
That LaTeX is hot.

Blindly integrating by parts is not the best way to solve that integral. Try using some trigonometric identities.
Start with: cos^2(z) = 1 - sin^2(z) ...
Continue with integration by parts, then think how to continue (this is a tricky one, so post again if you need more help).

I didn't end up using parts at all. This question comes from my calculus textbook and I have the answer to it, so I was able to check it. What I don't understand is that I got different answers depending on whether I used the identity for cosine or the identity for sine; and only the sine one matches the answer provided.

Let w = sin(z)
dw = cos(z) dz

(sorry, seems to be no way to control the image's export size)
Which doesn't seem to be equivavent to the expression that the salopes want:

Let w = cos(z)
dw = -sin(z) dz

Thoughts?

Yoni · March 05, 2006, 02:42 PM

Quote from: rabbit on March 05, 2006, 09:01 AM
That first one is relatively simple. You can use the S[u du] property on it, and you get S[sin³(z)cos³(z) dz] = -cos³(z) + C
Well..assuming I did it correctly that is.

Nope! You didn't. Try again! (Hint: d/dz sin³(z) != cos³(z) ...)

shadypalm: Good job, it's easier than the way I thought of doing it.

Both your solutions are correct. Don't forget the "+ C" at the end.
The 2 functions you got are not equivalent with the same C - but they are equivalent with different C's. (i.e., their difference is a constant function.)

shadypalm88 · March 05, 2006, 03:27 PM

Quote from: Yoni on March 05, 2006, 02:42 PM
Both your solutions are correct. Don't forget the "+ C" at the end.
The 2 functions you got are not equivalent with the same C - but they are equivalent with different C's. (i.e., their difference is a constant function.)

Oh! I didn't think of that, but yeah, that makes sense. Cool, thanks for the help.
(PS- I have the + C on paper but forgot to transcribe it into LaTeX.)

Yoni · March 05, 2006, 04:55 PM

Actually you didn't, I see it in your images.

rabbit · March 07, 2006, 09:29 PM

Bleh! I suck at integrals -.-