Primarygun Posted May 14, 2005 Posted May 14, 2005 The loudness of sound heard when two objects meet together depends on their difference in temperature and state? or the amount of energy transfer?
Ophiolite Posted May 14, 2005 Posted May 14, 2005 I think PG is asking what determines the amplitude of the wave. The first order effect has to be the energy input.
Flareon Posted May 14, 2005 Posted May 14, 2005 Sound intensity is power/area, therfore, the amount of energy produced per second over the area the sound has traveled when it is heard. For example, if two cars smash together producing 5 watts of sound, and you are 2 meters away from the point of impact, you would hear 5/4pi2^2, or 9.9E-2 W/m^2. This translates into about 100 dB, I believe. I would assume the temperature would have a small effect, but I'm not sure what kind.
[Tycho?] Posted May 14, 2005 Posted May 14, 2005 I think PG is asking what determines the amplitude of the wave. The first order effect has to be the energy input. This is true, but a higher frequency sound will have more energy than a low frequency one. But this wont appear as louder in our ears.
Douglas Posted May 16, 2005 Posted May 16, 2005 I may be missing something here, but it seems to me that the amplitude of the sound would be a function of the material of the colliding objects. I.E. two colliding brass bells make a louder sound than two colliding bricks.
Ophiolite Posted May 16, 2005 Posted May 16, 2005 True. But that also includes geometry. Bell shapes resonate. Bricks are porous. There's never a simple answer.
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