Nothing. That IS how a sound wave is propagated.
Yes, it does.
They rapidly compress and rarefy in the direction of the sound wave as the wave travels.
compression
The characteristics of a sound wave is the Amplitude, Frequency, Wavelength, time period, and velocity. The sound wave itself is a longitudinal wave that shows the rarefactions and compressions of a sound wave.
Loudness is the quality of a sound that is the primary psychological correlate of physical strength or amplitude. Loudness is a subjective felt impression and is in some way related to the objective measure of the sound pressure. Neither our ear drums nor the microphone diaphragms can convert acoustic intensity. Therefore only use the sound pressure for measuring. To measure the loudness feeling is a difficult thing. The loudness of 1 sone equals the loudness level of 40 phons (at 1 kHz).
Because sound waves are displacements of molecules of the medium they travel through, reducing the amplitude would mean decreasing the displacement the molecules experience as the wave passes through. Even though sound waves are longitudinal (meaning the displacement is in the direction the wave travels in) and waves in water are transversal (the displacement is perpendicular to the wave's direction), an example can be found in water waves; reducing the amplitude in water waves would reduce the size/height of the waves. In the case of audible sound waves reducing the amplitude will decrease the volume of the sound.
Sound waves that are compressed are made of (air) molecules that are more densely concentrated - that is (ie) more molecules are packed into the space of the compressed wave than there are in the (same) space of the surrounding expanded waves.
a sound wave is the movement of the molecules of the material, so no molecules no sound wave.
As regards the ones on thie inside, the air atoms and molecules (yes, there are both 'cause air is a mixture of gases) are compressed on the inside of the ball. They are compressed in the area adjacent to the surface that is being compressed, and the compression wave travels across the inside of the ball to the other side and rebounds. Yes, a wave will result from the compression of one side of the ball. And that compression wave moves really fast in there. Like about the speed of sound.
Sound molecules traveling through air is an example of a longitudinal wave. It moves parallel to the direction of wave propagation.
the air molecules
A sound wave is simply a vibration in the air molecules, or the molecules of some other substance. This vibration propagates as a wave, the energy gets transferred somewhere else.
Everywhere. Sound is a series of longitudinally compresson and rarefraction volumes of (air).
A sound wave is simply a vibration in the air molecules, or the molecules of some other substance. This vibration propagates as a wave, the energy gets transferred somewhere else.
A longitudinal wave such as a sound wave.
Sound waves are compression waves because the molecules of air are compressed.
They rapidly compress and rarefy in the direction of the sound wave as the wave travels.
Sound wave travels from one part in to another part in air due to change in density of molecules from one point to another point