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6.1: Background to D’Alembert’s Solution

  • Page ID
    8342
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    I have argued before that it is usually not useful to study the general solution of a partial differential equation. As any such sweeping statement it needs to be qualified, since there are some exceptions. One of these is the one-dimensional wave equation

    \[\dfrac{\partial^2}{\partial x^2} u(x,t) - \frac{1}{c^2} \dfrac{\partial^2}{\partial t^2} u(x,t) = 0, \nonumber \] which has a general solution, due to the French mathematician d’Alembert.

    The reason for this solution becomes obvious when we consider the physics of the problem: The wave equation describes waves that propagate with the speed \(c\) (the speed of sound, or light, or whatever). Thus any perturbation to the one dimensional medium will propagate either right- or leftwards with such a speed. This means that we would expect the solutions to propagate along the characteristics \(x\pm ct=\text{constant}\), as seen in Figure \(\PageIndex{1}\).

    LightF.png
    Figure \(\PageIndex{1}\): The change of variables from \(x\) and \(t\) to \(w=x+ct\) and \(z=x-ct\).

    This page titled 6.1: Background to D’Alembert’s Solution is shared under a CC BY-NC-SA 2.0 license and was authored, remixed, and/or curated by Niels Walet via source content that was edited to the style and standards of the LibreTexts platform; a detailed edit history is available upon request.