4.II
Starting from the equations of conservation of mass and momentum for an inviscid compressible fluid, show that for small perturbations about a state of rest and uniform density the velocity is irrotational and the velocity potential satisfies the wave equation. Identify the sound speed .
Define the acoustic energy density and acoustic energy flux, and derive the equation for conservation of acoustic energy.
Show that in any (not necessarily harmonic) acoustic plane wave of wavenumber the kinetic and potential energy densities are equal and that the acoustic energy is transported with velocity .
Calculate the kinetic and potential energy densities for a spherically symmetric outgoing wave. Are they equal?
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