(→CT Signal & its Fourier coefficients) |
(→CT Signal & its Fourier coefficients) |
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− | <math>\ x(t) = \frac{1+2j}{2} e^{jt} | + | <math>\ x(t) = \frac{1+2j}{2} e^{jt} + \frac{1+2j}{2} e^{-jt} + 5 \frac{e^{j4t}{2j} - 5\frac{e^{-j4t}}{2j} </math> |
Revision as of 20:37, 23 September 2008
CT Signal & its Fourier coefficients
Lets define the signal
$ \ x(t) = (1+2j)cos(t)+5sin(4t) $
Knowing that its Fourier series is
$ \ x(t) = (1+2j)(\frac{e^{jt} + e^{-jt}}{2}) + 5(\frac{e^{j4t} - e^{-j4t}}{2j}) $
We simplify
$ \ x(t) = \frac{1+2j}{2} e^{jt} + \frac{1+2j}{2} e^{-jt} + 5 \frac{e^{j4t}{2j} - 5\frac{e^{-j4t}}{2j} $