(→b) Response of Signal in Question 1) |
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=== b) Response of Signal in Question 1 === | === b) Response of Signal in Question 1 === | ||
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From Question 1: | From Question 1: | ||
| − | Unfortunately, I did not | + | Unfortunately, I did not make a DT signal for Parts 1/2. Instead of going back and redoing my work, I am going to "steal" the work of a Mr. Collin Phillips (my apologies and gratitude to Mr. Collin Phillips). |
According to his work: | According to his work: | ||
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* <math> \,\ a_k = 0 </math> elsewhere | * <math> \,\ a_k = 0 </math> elsewhere | ||
* <math> \,\ N = 2 </math> | * <math> \,\ N = 2 </math> | ||
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| + | Response of the System <math> \,\ y[n] = \sum_{k = <N>}^{\infty} a_k H[e</math><sup><math> j2\pi k/N</math></sup><math> \,\ ]e</math><sup><math> jk(2\pi /N) n</math></sup> | ||
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| + | Because <math> a_k </math> only has one value, this shouldn't be that hard to calculate. | ||
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| + | <math> \,\ a_k </math> is only valid at <math> a_1 = -3 </math>. Therefore... | ||
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| + | <math> \,\ y[n] = -3 * | ||
Revision as of 17:57, 25 September 2008
b) Response of Signal in Question 1
From Question 1: Unfortunately, I did not make a DT signal for Parts 1/2. Instead of going back and redoing my work, I am going to "steal" the work of a Mr. Collin Phillips (my apologies and gratitude to Mr. Collin Phillips).
According to his work:
- $ \,\ X[n] = 3cos(3\pi n + \pi) $
- $ \,\ a_0 = 0 $
- $ \,\ a_1 = -3 $
- $ \,\ a_k = 0 $ elsewhere
- $ \,\ N = 2 $
Response of the System $ \,\ y[n] = \sum_{k = <N>}^{\infty} a_k H[e $$ j2\pi k/N $$ \,\ ]e $$ jk(2\pi /N) n $
Because $ a_k $ only has one value, this shouldn't be that hard to calculate.
$ \,\ a_k $ is only valid at $ a_1 = -3 $. Therefore...
$ \,\ y[n] = -3 * $
