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Adrian, no that isn't enough because the ''length'' of the curve goes to infinity at the same time that the integrand goes to zero.  It is a more subtle problem and you need to use the estimate that I used in class today.  See my notes at
 
Adrian, no that isn't enough because the ''length'' of the curve goes to infinity at the same time that the integrand goes to zero.  It is a more subtle problem and you need to use the estimate that I used in class today.  See my notes at
  
[http://www.math.purdue.edu/~bell/MA425/Lectures/lec10-05.pdf lec10-05.pdf] --~~
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[http://www.math.purdue.edu/~bell/MA425/Lectures/lec10-05.pdf lec10-05.pdf] --[[User:Bell|Steve Bell]]

Revision as of 08:42, 5 October 2009


Discussion area to prepare for Exam 1

Practice Problems for Exam 1


Professor Bell, For problem 7 on the practice problem worksheet, would it be valid to just let be z equal to the curve R*exp(it) in the integrand and take the limit as R goes to infinity, of the integral showing that the integrand approaches 0 and thus the integral goes to 0?--Adrian Delancy

Adrian, no that isn't enough because the length of the curve goes to infinity at the same time that the integrand goes to zero. It is a more subtle problem and you need to use the estimate that I used in class today. See my notes at

lec10-05.pdf --Steve Bell

Alumni Liaison

Sees the importance of signal filtering in medical imaging

Dhruv Lamba, BSEE2010