Homework Three: Difference between revisions

Revision as of 16:33, 14 October 2009

October 5th, 2009, class notes (as interpreted by Nick Christman)

The topic covered in class on October 5th was about how to deal with signals that are not periodic.

Given the following fourier series, what if the signal is not periodic?

$x(t)=x(t+T)=\sum _{n=-\infty }^{\infty }\alpha _{n}e^{\frac {j2\pi nt}{T}}{\mbox{where}}\alpha _{n}={\frac {1}{T}}\int _{-{\frac {T}{2}}}^{\frac {T}{2}}x(t')e^{-{\frac {j2\pi nt'}{T}}}\,dt'$

Is it possible to

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 Given the following fourier series, what if the signal is not periodic?
-<math> x(t) = x(t+T) = \sum_{n=- \infty}^{\infty} \alpha _n e^{\frac{j2 \pi nt}{T}} </math>
+<math> x(t) = x(t+T) = \sum_{n=- \infty}^{\infty} \alpha _n e^{\frac{j2 \pi nt}{T}} \mbox{where}\alpha _n = \frac{1}{T} \int_{-\frac{T}{2}}^{\frac{T}{2}} x(t')e^{- \frac{j2 \pi nt'}{T}} \,dt' </math>
-where
-<math>\alpha _n = \frac{1}{T} \int_{-\frac{T}{2}}^{\frac{T}{2}} x(t')e^{- \frac{j2 \pi nt'}{T}} </math>
 Is it possible to

Homework Three: Difference between revisions

Revision as of 16:33, 14 October 2009

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