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| − | <math>\omega_0\,</math> ends up being <math>\pi\,</math> | + | <math>\omega_0\,</math> ends up being <math>\pi\,</math> for this signal |
| + | |||
| + | So because of that, in my last step, i was able to determine what value of K's i had. (k = 3,-3,5,-5) | ||
| + | |||
| + | So then you just take the coefficients of those terms to get the <math>a_k\,</math> | ||
Revision as of 18:28, 22 September 2008
CT signal:
$ x(t) = 4\sin(5 \pi t) - (2 + j)\cos(3 \pi t)\, $
$ x(t) = 4 * \frac{e^{j5\pi t} - e^{-j5\pi t}}{2} - (2+j)*\frac{e^{j3\pi t} + e^{-j3\pi t}}{2}\, $
$ x(t) = 2e^{j5\pi t} - 2e^{-j5\pi t} - \frac{2+j}{2}e^{j3\pi t} - \frac{2+j}{2}e^{j3\pi t}\, $
$ x(t) = 2e^{5*j\pi t} - 2e^{-5*j\pi t} - \frac{2+j}{2}e^{3*j\pi t} - \frac{2+j}{2}e^{-3*j\pi t}\, $
$ \omega_0\, $ ends up being $ \pi\, $ for this signal
So because of that, in my last step, i was able to determine what value of K's i had. (k = 3,-3,5,-5)
So then you just take the coefficients of those terms to get the $ a_k\, $
