Free wave equation: Difference between revisions

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One can add a mass term to create the [[Klein-Gordon equation]].
One can add a mass term to create the [[Klein-Gordon equation]].


== Exact solutions ==
Being this a linear equation one can always write down a solution using Fourier series or transform. These solutions represent superpositions of traveling waves.
=== Solution in <math>{\mathbb R}^{1+1}</math> ===
In this case one can write down the solution as
<center><math>\, f(x,t)=g_1(x-t)+g_2(x+t)\!</math></center>
being <math>g_1,\ g_2</math> two arbitrary functions.


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[[Category:Wave]]
[[Category:Wave]]
[[Category:Equations]]
[[Category:Equations]]

Revision as of 14:53, 20 June 2009

The free wave equation on is given by

where f is a scalar or vector field on Minkowski space . In coordinates, this becomes

It is the prototype for many nonlinear wave equations.

One can add a mass term to create the Klein-Gordon equation.

Exact solutions

Being this a linear equation one can always write down a solution using Fourier series or transform. These solutions represent superpositions of traveling waves.

Solution in

In this case one can write down the solution as

being two arbitrary functions.