) A source of spherical waves of frequency f and pressure amplitude A at 1 meter is a distance d above a plane, rigid boundary. Calculate the amplitude of the pressure on the boundary as a function of d and r. (b) For the same source at the same distance above a plane, pressure release boundary, calculate the normal component of the particle velocity on the boundary. (c) Make plots of (a) as a function of R, the distance along the boundary measured from the point closest to the source, for various values of d. (d) Repeat (c) for (b).
) A source of spherical waves of frequency f and pressure amplitude A at 1 meter is a distance d above a plane, rigid boundary. Calculate the amplitude of the pressure on the boundary as a function of d and r. (b) For the same source at the same distance above a plane, pressure release boundary, calculate the normal component of the particle velocity on the boundary. (c) Make plots of (a) as a function of R, the distance along the boundary measured from the point closest to the source, for various values of d. (d) Repeat (c) for (b).
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(a) A source of spherical waves of frequency f and pressure amplitude A at 1 meter is
a distance d above a plane, rigid boundary. Calculate the amplitude of the pressure
on the boundary as a function of d and r. (b) For the same source at the same distance
above a plane, pressure release boundary, calculate the normal component of the
particle velocity on the boundary. (c) Make plots of (a) as a function of R, the distance
along the boundary measured from the point closest to the source, for various values
of d. (d) Repeat (c) for (b).
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