Laplace Transform of a Triangle Wave: Difference between revisions

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This article explains how to transform a periodic function (in this case a triangle wave). This is especially useful for analyzing circuits which contain triangle wave voltage sources.
This article explains how to transform a periodic function (in this case a triangle wave). This is especially useful for analyzing circuits which contain triangle wave voltage sources.

==Define F(t)==

<math>m1=\frac{2+2}{.5+.5}=4</math>

<math>m2=\frac{-2-2}{1.5-.5}=-4</math>
So,

<math>F\left( t \right)=\left\{\begin{array}{cc} 4t & -.5\leq t<.5 \\ -4t+4 & .5\leq t<1.5 \end{array}\right
</math>

==Author==
==Author==



Revision as of 17:57, 19 January 2010

Triangle wave with period T=2 and amplitude A=2

Introduction

This article explains how to transform a periodic function (in this case a triangle wave). This is especially useful for analyzing circuits which contain triangle wave voltage sources.

Define F(t)

So,

Failed to parse (syntax error): {\displaystyle F\left( t \right)=\left\{\begin{array}{cc} 4t & -.5\leq t<.5 \\ -4t+4 & .5\leq t<1.5 \end{array}\right }

Author

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