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∙ 8y agoThe region where coils are farthest apart for a compressional wave on a spring coil is known as the rarefaction region. In this area, the coils are spread out, creating a region of lower density or pressure compared to the rest of the coil. This is where the wave experiences maximum displacement and expansion.
The region where coils are farthest apart for a compressional wave on a spring coil is the rarefaction zone. In this area, the coils are spread out, producing a lower density of coils compared to the rest of the spring.
The particles in a compressional wave are spaced farthest apart at the rarefaction region, which corresponds to the trough of the wave where the pressure and density are lower than normal.
In a compressional wave, the particles are spaced farthest apart at the points of maximum rarefaction where the wave is at its trough. This is when the pressure is at its lowest and the particles are more spread out.
In a longitudinal wave, the particles are farthest apart at the rarefaction region. Rarefaction is the region where the particles are spread out and have the lowest density compared to the rest of the wave.
In a longitudinal wave moving along a spring, the areas where the coils are the farthest apart are called rarefactions. These are regions of lower density and pressure in the wave where the coils are spread out.
The region where coils are farthest apart for a compressional wave on a spring coil is the rarefaction zone. In this area, the coils are spread out, producing a lower density of coils compared to the rest of the spring.
The particles in a compressional wave are spaced farthest apart at the rarefaction region, which corresponds to the trough of the wave where the pressure and density are lower than normal.
In a compressional wave, the particles are spaced farthest apart at the points of maximum rarefaction where the wave is at its trough. This is when the pressure is at its lowest and the particles are more spread out.
In a longitudinal wave, the particles are farthest apart at the rarefaction region. Rarefaction is the region where the particles are spread out and have the lowest density compared to the rest of the wave.
In a longitudinal wave moving along a spring, the areas where the coils are the farthest apart are called rarefactions. These are regions of lower density and pressure in the wave where the coils are spread out.
if you squeeze a part of the spring close together the other part of the spring is going to be more apart .
The rarefaction is the part of a compressional wave where particles are far apart. This is the region of low pressure in the wave, where particles are spread out compared to the other parts of the wave.
The spread-apart portion of a compressional wave is called a rarefaction. In a compressional wave, particles are pushed together (compression) and then spread apart (rarefaction) as the wave passes through a medium.
In a spring, squeezing some coils together more tightly causes the nearby coils to be more spread apart
In a spring, squeezing some coils together more tightly causes the nearby coils to be more spread apart. So this is how it increases.
In a spring, squeezing some coils together more tightly causes the nearby coils to be more spread apart. So this is how it increases.
Green light traveling through air is NOT an example of a compressional wave. Compressional waves require a medium to propagate, such as a spring, air, or water, whereas light is an electromagnetic wave that can travel through a vacuum.