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He gave us this to kind of start us off:
 
He gave us this to kind of start us off:
  
<math>a_n = \frac{2}{\Pi} \int^{\Pi}_{0} f(x) \sin(nx) dx</math>
+
<math>a_n = \frac{2}{\pi} \int^{\pi}_{0} f(x) \sin(nx) dx</math>
  
 
[[User:Idryg|Idryg]] 19:20, 23 November 2008 (UTC)
 
[[User:Idryg|Idryg]] 19:20, 23 November 2008 (UTC)

Revision as of 11:03, 24 November 2008

It's not posted on the website, so here's in case anyone needs it.

Find the Fourier Sine Series for:

A line starting at the origin, increasing until (Pi/2,1) and then decreasing until (Pi,0). (Draw it to get a visual)

He gave us this to kind of start us off:

$ a_n = \frac{2}{\pi} \int^{\pi}_{0} f(x) \sin(nx) dx $

Idryg 19:20, 23 November 2008 (UTC)

Alumni Liaison

Basic linear algebra uncovers and clarifies very important geometry and algebra.

Dr. Paul Garrett