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Acoustic Plane Waves

Pressure Plane Waves:

\begin{eqnarray*} p^+(n) &\mathrel{\stackrel{\mathrm{\Delta}}{=}}& R_a\,u^{+}(n)\\ p^-(n) &\mathrel{\stackrel{\mathrm{\Delta}}{=}}& -R_a\,u^{-}(n) \end{eqnarray*}

where $ u^{+},u^{-}$ are Longitudinal Particle-Velocity Waves

Ohm's Law for Traveling Acoustic Plane Waves:

\fbox{% \begin{minipage}[c]{3in}% \begin{displaymath}\begin{array}{rcrl}% p^+(n)... ...u^{+}(n) \\ p^-(n)&=&-& R_au^{-}(n) \end{array}\end{displaymath}\end{minipage}}
where

$\displaystyle \zbox{R_a = \rho c} $

is the wave impedance of air in terms of mass density $ \rho$ ( kg$ /$m$ ^3$) and sound speed $ c$.

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``Elementary Digital Waveguide Models for Vibrating Strings'', by Julius O. Smith III, (From Lecture Overheads, Music 420).
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