Signals and systems/GF Fourier: Difference between revisions

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The exponential form of the Fourier series is defined as <math> x(t) = \sum_{n=-\infty}^\infty \alpha_n e^{{j2\pi nt}/T} \, </math>
The exponential form of the Fourier series is defined as <math> x(t) = \sum_{n=-\infty}^\infty \alpha_n e^{{j2\pi nt}/T} \, </math>


==Determining the coefficient<math> \alpha_n \,</math> ==
==Determining the coefficient <math> \alpha_n \,</math> ==


==Changing Basis Functions==
==Changing Basis Functions==

Revision as of 04:16, 29 October 2006

Fourier series

The Fourier series is used to analyze arbitrary periodic functions by showing them as a composite of sines and cosines.

A function is considered periodic if for .

The exponential form of the Fourier series is defined as

Determining the coefficient

Changing Basis Functions

Notes