The Fourier Transforms: Difference between revisions

From Class Wiki
Jump to navigation Jump to search
Line 17: Line 17:
<math>\mathcal{F}[x(a*t)] = \frac{1}{a}X(\frac{f}{a})</math>
<math>\mathcal{F}[x(a*t)] = \frac{1}{a}X(\frac{f}{a})</math>

=== Symmetries ====

* if f(x) is real, then $F(-\omega) = F(\omega)^*$
* if f(x) is imaginary, then $F(-\omega) = -F(\omega)^*$
* if f(x) is even, then $F(-\omega) = F(\omega)$
* if f(x) is odd, then $F(-\omega) = -F(\omega)$.

Revision as of 09:57, 12 October 2007

The Fourier transform was named after Joseph Fourier, a French mathematician. A Fourier Transform takes a function to its frequency components.


Properties of a Fourier Transform:

Properties of a Fourier Transform:

Linearity

   


= Shifting the function changes the phase of the spectrum

   

Frequency and amplitude are affected when changing spatial scale inversely

   

Symmetries =

   * if f(x) is real, then $F(-\omega) = F(\omega)^*$
   * if f(x) is imaginary, then $F(-\omega) = -F(\omega)^*$
   * if f(x) is even, then $F(-\omega) = F(\omega)$
   * if f(x) is odd, then $F(-\omega) = -F(\omega)$.