Acculution ApS
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Posted:
3 years ago
8 set 2021, 03:24 GMT-4
Updated:
3 years ago
8 set 2021, 04:41 GMT-4
This is the acoustic wave equation; the governing equation for standard acoustics. https://en.wikipedia.org/wiki/Acoustic_wave_equation
It is comprised of several other equations regarding continuity and momentum.
If you remove the sources q and Q and assume that density is constant you have a simpler version, where it is even more clear to see how the second time derivative relates directly to the second spatial derivative. This so-called hyperbolic differential equation will give you waves as solutions; just try and plug in a cosine and differentiate twice with respect to time and twice with respect to space (you can assume 1D starting out, so d2p/dx2). You will see that the equation holds. So we expect the acoustic field obeying this original equation to be waves.
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René Christensen, PhD
Acculution ApS
www.acculution.com
info@acculution.com
This is the acoustic wave equation; the governing equation for standard acoustics. https://en.wikipedia.org/wiki/Acoustic_wave_equation
It is comprised of several other equations regarding continuity and momentum.
If you remove the sources q and Q and assume that density is constant you have a simpler version, where it is even more clear to see how the second time derivative relates directly to the second spatial derivative. This so-called hyperbolic differential equation will give you waves as solutions; just try and plug in a cosine and differentiate twice with respect to time and twice with respect to space (you can assume 1D starting out, so d2p/dx2). You will see that the equation holds. So we expect the acoustic field obeying this original equation to be waves.