(Useful Formulas)
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*[[DT Fourier Transform Multiplication_ECE301Fall2008mboutin]] {{:DT Fourier Transform Multiplication}}
 
*[[DT Fourier Transform Multiplication_ECE301Fall2008mboutin]] {{:DT Fourier Transform Multiplication}}
 
*[[DT Fourier Transform Convolution_ECE301Fall2008mboutin]] {{:DT Fourier Transform Convolution}}
 
*[[DT Fourier Transform Convolution_ECE301Fall2008mboutin]] {{:DT Fourier Transform Convolution}}
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 +
=== Parsevel Relationship for DT signals ===
 +
<math>\frac {1}{N} \sum_{n=<N>}^{}|x[n]|^2 dt = \sum_{k=<N>}{}|a_k|^2</math>
  
 
== Continuous-time domain ==
 
== Continuous-time domain ==
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*[[CT Time Reversal_ECE301Fall2008mboutin]]{{:CT Time Reversal}}
 
*[[CT Time Reversal_ECE301Fall2008mboutin]]{{:CT Time Reversal}}
 
*[[CT Multiplication Property Mimis Version_ECE301Fall2008mboutin]]{{:CT Multiplication Property Mimis Version}}
 
*[[CT Multiplication Property Mimis Version_ECE301Fall2008mboutin]]{{:CT Multiplication Property Mimis Version}}
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=== Parsevel Relationship for CT signals ===
 +
<math>\frac {1}{T} \int_{0}^{T}|x(t)|^2 dt = \sum_{k=-\inf}{inf}|a_k|^2</math>
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*put a property here following syntax described at top of page.
 
*put a property here following syntax described at top of page.

Revision as of 08:26, 15 October 2008


Please follow the following model to add your formulas:

Create a page with a descriptive name and type your formula on this page using latex. Then write
{{:name of the page with your formula}}

in the place where you want your formula to appear in this table. (Look at the syntax of the geometric series below for an example.) This will allow other people to refer to your formula later on (by refering to the corresponding page) while still being able to view all formulas on this page.

General Purpose Formulas

Series

Discrete-time domain

Useful Formulas

DT Fourier Transform Pairs

  • put a pair here following syntax described at top of page.
  • put a pair here following syntax described at top of page.

DT Fourier Transform Properties

Parsevel Relationship for DT signals

$ \frac {1}{N} \sum_{n=<N>}^{}|x[n]|^2 dt = \sum_{k=<N>}{}|a_k|^2 $

Continuous-time domain

Useful Formulas

CT Fourier Transform Pairs

CT Fourier Transform Properties

CT Multiplication Property

Parsevel Relationship for CT signals

$ \frac {1}{T} \int_{0}^{T}|x(t)|^2 dt = \sum_{k=-\inf}{inf}|a_k|^2 $

  • put a property here following syntax described at top of page.

Alumni Liaison

Correspondence Chess Grandmaster and Purdue Alumni

Prof. Dan Fleetwood