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A sound wave is made of a series of compressions and what?
As sound is an example of a longitudinal wave, sound has a series of compressions and rarefactions.To explain a bit more, compressions are the squeezes of the wave while rarefactions are the stretches of the wave.
A sound wave is made of a series of compressions and?
rarefactions, which are regions of high and low pressure respectively. As the wave travels through a medium, these compressions and rarefactions propagate in a wave pattern, carrying energy from one point to another.
What is a series of rarefactions and Compressions traveling through a substance?
A series of rarefactions and compressions that travel through a substance is called a sound wave. Sound waves are created by vibrations and propagate by causing particles in the medium to move back and forth in the same direction of the wave.
The what of a compressional wave is the distance between two adjacent compressions or rarefactions?
The wavelength of a compressional wave is the distance between two adjacent compressions or rarefactions.
What is a series of compressions and rarefactions moving through a medium called?
A series of compressions and rarefactions moving through a medium is called a sound wave. Sound waves travel through different mediums, such as air, water, or solids, by transferring energy in the form of mechanical vibrations.
A sound wave is made of a series of compressions and what?
As sound is an example of a longitudinal wave, sound has a series of compressions and rarefactions.To explain a bit more, compressions are the squeezes of the wave while rarefactions are the stretches of the wave.
A sound wave is made of a series of compressions and?
rarefactions, which are regions of high and low pressure respectively. As the wave travels through a medium, these compressions and rarefactions propagate in a wave pattern, carrying energy from one point to another.
What is a series of rarefactions and Compressions traveling through a substance?
A series of rarefactions and compressions that travel through a substance is called a sound wave. Sound waves are created by vibrations and propagate by causing particles in the medium to move back and forth in the same direction of the wave.
What is the compressions and rarefactions of a wave?
Neon cat
The what of a compressional wave is the distance between two adjacent compressions or rarefactions?
The wavelength of a compressional wave is the distance between two adjacent compressions or rarefactions.
What is a series of compressions and rarefactions moving through a medium called?
A series of compressions and rarefactions moving through a medium is called a sound wave. Sound waves travel through different mediums, such as air, water, or solids, by transferring energy in the form of mechanical vibrations.
What series compressions and refraction forms this wave?
The wave described may be produced by a series of compressions and rarefactions in a medium such as air or water. When the wave encounters a boundary between two different media, refraction may occur, causing the wave to change direction as it enters the new medium.
Using a spring as an example explain the compressions and rarefactions of a wave?
Compressions are the parts where the coils are close together
How do compressions and rarefactions compare to crests and troughs?
Compressions and rarefactions are regions of high and low pressure in a longitudinal wave, while crests and troughs are points of maximum positive and negative displacement in a transverse wave. Both terms describe different aspects of wave behavior: compressions and rarefactions in longitudinal waves, and crests and troughs in transverse waves.
What is the wavelength of a longitudinal wave?
The wavelength of a longitudinal wave is the distance between two consecutive compressions or rarefactions in the wave.
How does a longitudinal wave travel?
With the help of compressions and rarefactions longitudinal waves get propagated.
What part of the longitudinal wave hits the eardrum?
The compressions and rarefactions of the longitudinal wave hit the eardrum. The compressions correspond to the increased air pressure while the rarefactions correspond to the decreased air pressure, together creating the sound wave that reaches the eardrum.
