MX2 Integration Marathon (1 Viewer)

notme123

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This is a cool one:
reverse quotient rule:
so basically the numerator should be in the form vu'-uv' or since , and denominator is already in the form
expanding the numerator
since highest power is 4, u is a quadratic

Therfore:
Expanding and equating coefficients nets
Therefore: the integral
 
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notme123

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Here's one I found, might not be overly difficult. Given , evaluate
 

vernburn

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Here's one I found, might not be overly difficult. Given , evaluate
Ahahahaha...

Look at Post #153 of this thread, page 8. It was the first post I ever made on BoS! The notation I use is a bit complicated and could be expressed more clearly though.
 

notme123

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Ahahahaha...

Look at Post #153 of this thread, page 8. It was the first post I ever made on BoS! The notation I use is a bit complicated and could be expressed more clearly though.
hahaha, amazing I did not know that. tbh I hate to admit it but I just looked up 'cool integrals' and found this.
 

notme123

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Tbh I’m surprised I remembered doing it. I did that over a year ago.
It's more impressive than my first post which was about me complaining about not wanting to do study notes for economics lol.
 
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idkkdi

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? its cosec^2x and cot^2x not cosecx and cotx not to mention u need the dx
Tan half angle may or may not simplify what is meant to be integrated. Dw about my scribbling lmao. Did actually forget about the ^2 haha.
 

idkkdi

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? its cosec^2x and cot^2x not cosecx and cotx not to mention u need the dx
Just a question. The standard way to do this integral seems to look like a page of working at least.
Any short ways?
 

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