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From Shawn Whitman:
 
From Shawn Whitman:
 
The method of undetermined coefficients for second order nonhomogeneous linear ODEs works well for this problem.  See pages 81-84 and use the sum rule.  Two of the constants will go to zero.  Two others will result in 1/(omega^2-alpha^2) and 1/(omega^2-beta^2); thus the given constraints.
 
The method of undetermined coefficients for second order nonhomogeneous linear ODEs works well for this problem.  See pages 81-84 and use the sum rule.  Two of the constants will go to zero.  Two others will result in 1/(omega^2-alpha^2) and 1/(omega^2-beta^2); thus the given constraints.
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From Mnestero:
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I concur with Shawn regarding problem 6. I have a question about the even extension in problem 29. I am getting that the fourier series is 2/pi-4/pi(1/3 cos(2x) + 1/(3*5) cos (4x) + 1/(5*7) *cos(6x)... The answer in the book has odd numbers instead. Their answer doesn't make sense to me. Any thoughts?
 
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[[2013_Fall_MA_527_Bell|Back to MA527, Fall 2013]]
 
[[2013_Fall_MA_527_Bell|Back to MA527, Fall 2013]]

Revision as of 11:43, 27 October 2013


Homework 9 collaboration area

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This is the place!

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From Jake Eppehimer:

I am not sure how to do number 6 on p. 494. I'm clueless, and there's no answer in the back to verify if I'm doing anything right. Any tips?

From Shawn Whitman: The method of undetermined coefficients for second order nonhomogeneous linear ODEs works well for this problem. See pages 81-84 and use the sum rule. Two of the constants will go to zero. Two others will result in 1/(omega^2-alpha^2) and 1/(omega^2-beta^2); thus the given constraints.

From Mnestero:

I concur with Shawn regarding problem 6. I have a question about the even extension in problem 29. I am getting that the fourier series is 2/pi-4/pi(1/3 cos(2x) + 1/(3*5) cos (4x) + 1/(5*7) *cos(6x)... The answer in the book has odd numbers instead. Their answer doesn't make sense to me. Any thoughts? --- Back to MA527, Fall 2013

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