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What is the difference between compression and rarefaction in a longitudinal wave?
What is the difference between a compression and a rarefaction?
Do longitudinal waves have crests and troughs?
What are examples of longitudinal waves exhibiting compressions?
Oct 29, 2023 · A longitudinal wave consists of successive compression and rarefaction that is formed due to continuous to and fro motion of a vibrating object. As an object vibrates back and forth, it pushes on neighboring air particles.
A compression is a region in a longitudinal wave where the particles are closest together. Rarefaction. A rarefaction is a region in a longitudinal wave where the particles are furthest apart. As seen in Figure 9.2, there are regions where the medium is compressed and other regions where the medium is spread out in a longitudinal wave.
A longitudinal wave is a type of wave that travels in the direction of the medium, but a transverse wave is another type of wave that travels in the direction of the medium. Longitudinal waves are made of compressions and rarefactions, while transverse waves are made of crests and troughs.
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compressions are regions of high pressure due to particles being close together. rarefactions are regions of low pressure due to particles being spread further apart. Longitudinal waves are often...
2 days ago · These characteristics highlight the difference between compression and rarefaction, which are fundamental concepts in understanding wave behavior, especially in the context of longitudinal waves such as sound waves.
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A rarefaction is a point on a medium through which a longitudinal wave is traveling that has the minimum density. Points A, C and E on the diagram above represent compressions and points B, D, and F represent rarefactions.
Rarefaction, in the physics of sound, segment of one cycle of a longitudinal wave during its travel or motion, the other segment being compression. If the prong of a tuning fork vibrates in the air, for example, the layer of air adjacent to the prong undergoes compression when the prong moves so as.