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<math> 50: ln(9) - 4</math>
 
<math> 50: ln(9) - 4</math>
  
<math> 56: \frac{\pi}{4} + \ln{2} </math>
+
<math> 56: \frac{\pi}{4} - \ln{2} </math>
  
 
<math> 84 a) :  -\cos(\theta)+\frac{1}{3}\cos^3(\theta)+c</math>
 
<math> 84 a) :  -\cos(\theta)+\frac{1}{3}\cos^3(\theta)+c</math>
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---[[User:Gbrizend|Gary Brizendine II]] 14:51, 7 October 2008 (UTC)
 
---[[User:Gbrizend|Gary Brizendine II]] 14:51, 7 October 2008 (UTC)
  
I have corrected the answer to number 50.
+
I have corrected the answer to numbers 50 and 56.
  
--[[User:Jmason|John Mason]] 15:30, 7 October 2008 (UTC)
+
--[[User:Jmason|John Mason]] 15:41, 7 October 2008 (UTC)

Revision as of 10:41, 7 October 2008

I'm going to give my even answers so far just to compare and see if everyone else is getting the same. Some are a little weird in my opinion. I used a calculator on a few too. -By the way, go here and make sure your preferences are set right so it makes these easier to read.

$ 38: \pi $

$ 48: x - \arctan{x} + c $

$ 50: ln(9) - 4 $

$ 56: \frac{\pi}{4} - \ln{2} $

$ 84 a) : -\cos(\theta)+\frac{1}{3}\cos^3(\theta)+c $

$ 84b) : -\cos(\theta)+\frac{2}{3}\cos^3(\theta)-\frac{1}{5}\cos^5(\theta)+c $

---Gary Brizendine II 14:51, 7 October 2008 (UTC)

I have corrected the answer to numbers 50 and 56.

--John Mason 15:41, 7 October 2008 (UTC)

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Ph.D. on Applied Mathematics in Aug 2007. Involved on applications of image super-resolution to electron microscopy

Francisco Blanco-Silva