FourierTransformsJW: Difference between revisions
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==Fourier |
==Fourier Transform== |
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===Introduction=== |
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A Fourier series allows a periodic function to be represented as the sum of sine and/or cosine waves. This is very useful, because functions in the time domain can be expressed in the frequency domain. The frequency domain can, at times, be easier to work with. This is where the Fourier transfrom comes in. It allows for a nonperidic function of time to be converted (or transformed) into a function of frequency. |
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This conversion is analgous to the conversion from cartesian coordinates to polar or spherical coordinates. The location of the point does not change; only the directions for how to get there. |
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===Fourier Transform Defined=== |
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There are a couple of different ways to represent the Fourier transform. |
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Revision as of 18:58, 4 December 2005
Fourier Transform
Introduction
A Fourier series allows a periodic function to be represented as the sum of sine and/or cosine waves. This is very useful, because functions in the time domain can be expressed in the frequency domain. The frequency domain can, at times, be easier to work with. This is where the Fourier transfrom comes in. It allows for a nonperidic function of time to be converted (or transformed) into a function of frequency.
This conversion is analgous to the conversion from cartesian coordinates to polar or spherical coordinates. The location of the point does not change; only the directions for how to get there.
Fourier Transform Defined
There are a couple of different ways to represent the Fourier transform.
Principle author of this page: Jeffrey Wonoprbowo