Redshift of Sound in a Gravitational Field

[arhanbezbora]

Hi,

Do sound waves experience a redshift similar to that of light in a gravitational field?
Does anyone know the equation governing the change in frequency of the sound?
Is this the same as the Doppler shift for an accelerating source of sound?

Thanks.

[bucher]

I believe it's just the Doppler shift for sound waves.
I'm not quite sure what you mean by a "gravitational field" though.

[Bob S]

You will find that the velocity of sound is proportional to the sqrt(pressure/density).
Check the units to verify: sqrt[(kilogram-meters/sec2)(meters3/kilograms)] = meters/sec.

[Jonathan Scott]

Hi,

Do sound waves experience a redshift similar to that of light in a gravitational field?
Does anyone know the equation governing the change in frequency of the sound?
Is this the same as the Doppler shift for an accelerating source of sound?

Thanks.

If sound waves are emitted at one location (within a medium which will propagate sound, such as air) and received at another where the two locations differ in gravitational potential, then the sound will be apparently shifted in frequency because of the different time rates at the two locations, exactly as for any other form of signal. Exactly the same shift would occur if the sound was transmitted live over a radio link instead (in which case the radio signal frequency would also be shifted).

If the field is of approximately constant strength g and the displacement in the direction of the field is h, then the fractional shift is gh/c2 (so the frequency appears to be increased or blue-shifted when it reaches an observer at a lower potential, and decreased or red-shifted at a higher potential). This effect would obviously be far too small to measure for conventional sound frequencies except in the vicinity of an extremely dense mass.