Why amplitude doesn't affect speed of sound?

AI Thread Summary
Amplitude in sound waves is related to energy, but increasing amplitude does not increase the speed of sound. The speed of sound is primarily determined by the medium's temperature and the average time it takes for molecules to collide, not by the amplitude of the wave. While individual air particles may move faster with increased amplitude, this does not translate to a higher wave speed due to counterbalancing effects during sound propagation. The only significant factor that could increase sound speed is a rise in temperature from added energy, which typical sound levels do not provide. Therefore, amplitude does not affect the speed of sound in a meaningful way.
hasankamal007
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If amplitude is the measure of energy in a sound wave -
On increasing amplitude, the medium particles should hit each other in lesser time because they have more force(which increases their speed) and this cycle should repeat and repeat. Eventually, the speed of sound should increase. But that's not what happens.
So what's wrong in this cycle?
 
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ahhhh but the the energy of the sound wave attenuates with distance through a medium
because energy is absorbed by the medium
 
Sound is a pressure wave. The amplitude of sound pressure is much less than ambient athmospheric pressure (see the table). When they become comparable it's called shock wave.
 
hasankamal007 said:
If amplitude is the measure of energy in a sound wave -
On increasing amplitude, the medium particles should hit each other in lesser time because they have more force(which increases their speed) and this cycle should repeat and repeat. Eventually, the speed of sound should increase. But that's not what happens.
So what's wrong in this cycle?


individual particles of air are being accelerated fater and are moving faster but the speed of the wave itself is the same
 
grandpa
Can you elaborate please. Thanks.
 
The range of speeds (Kinetic Energy) of air molecules is immense. The speed of sound in a gas is dominated by the average time taken for each molecule to travel across the space between, to the next molecule. (simple model for the purpose of making the point). So the speed depends, essentially, on the gas temperature. Any effect in which the 'forward travelling' molecules from the source (pushed forward by the loudspeaker cone) would, somehow, push the downstream molecules away faster would be counterbalanced by the fact that there would be an equal and opposite effect in the other direction on the other half of the sound cycle. The mean addition to velocity would be zero.- certainly in the 'far field' situation.

The only thing that would increase this speed would be the injection of a lot of energy (in total) to increase the temperature. A 'normal' level of sound, from a loudspeaker or even a Jet engine (not the exhaust gases, of course) would not constitute a significant amount of energy and doesn't affect the temperature so I can't see how the speed of sound would be level dependent. Has anyone ever detected an increase in temperature right in front of a high-power loudspeaker, that could be attributed to the flux of sound energy? It would be interesting to know.
 

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