(New page: 1. x[n] is a real and even signal 2. x[n] has period N = 10 and Fourier coefficients <math>\ a_k</math> 3. <math>\ a_{11} = 5</math> 4. <math>\ \frac{1}{10} \sum_{n=0}^{9}|x[n]|^2 = 50<...)
 
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From #2 gives the period of N=10, from that can deduce that the frequency w = k\frac{2\pi}{10} and if assume k=1 then the frequency w=\frac{\pi}{5}
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From #2 gives the period of N=10, from that can deduce that the frequency <math>\ w = k\frac{2\pi}{10}</math> and if assume k=1 then the frequency <math>\ w=\frac{\pi}{5}</math>

Revision as of 14:34, 26 September 2008

1. x[n] is a real and even signal

2. x[n] has period N = 10 and Fourier coefficients $ \ a_k $

3. $ \ a_{11} = 5 $

4. $ \ \frac{1}{10} \sum_{n=0}^{9}|x[n]|^2 = 50 $


From #2 gives the period of N=10, from that can deduce that the frequency $ \ w = k\frac{2\pi}{10} $ and if assume k=1 then the frequency $ \ w=\frac{\pi}{5} $

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