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yes, sound is a wave. waves can be refracted.
Because the rate at which sound propagates changes with temperature, it is possible for sound to be refracted by changes in the air temperature at low altitudes. Sounds may be refracted toward or away from a listener. This can create what is known as a "shadow zone" a short distance from the sound source, where the sound will be diminished or not heard at all.i think it is that the air is cooler than the ground
yes, sound is a wave. waves can be refracted.
Sound is a wave (of energy) in a medium [solid,liquid, or gas] (a compression wave in fact), therefore it is refracted by any change in the medium AND by the fact that it is never coherent (it never travels in only a straight line).
they get refracted and reflected by the other medium
yes, sound is a wave. waves can be refracted.
Because the rate at which sound propagates changes with temperature, it is possible for sound to be refracted by changes in the air temperature at low altitudes. Sounds may be refracted toward or away from a listener. This can create what is known as a "shadow zone" a short distance from the sound source, where the sound will be diminished or not heard at all.i think it is that the air is cooler than the ground
yes, sound is a wave. waves can be refracted.
it is a reflection because the sound waves does not travel to another medium that is the condition of refraction
Echoes and reflections.
It changes to another form.
Sound is a wave (of energy) in a medium [solid,liquid, or gas] (a compression wave in fact), therefore it is refracted by any change in the medium AND by the fact that it is never coherent (it never travels in only a straight line).
They both have reflection
they get refracted and reflected by the other medium
wavelenght
The has high humidity
Much of the sound will be reflected (the amount reflected will depend on the angle of incidence). If the angle of incidence is low enough, the sound will be completely reflected. The portion which is transmitted into the water, if any, will be refracted because of the difference in the speed of sound between air and water. Since the speed of sound in water is greater than the speed of sound in air, the sound will be refracted toward the surface of the water. Note that this is the opposite of what happens with light which has a slower speed in water than in air and is refracted away from the surface of the water.