It's called a compression, and the point of lowest density is called a rarefraction. This logic also applies to transverse waves.
The compression in a longitudinal wave can be thought of as the regions where the particles are closest together, which corresponds to the crest of the wave. This is where the wave is most compacted and has the highest density of particles.
A rarefaction in a longitudinal wave is a region where the particles are spread out, resulting in a decrease in density compared to the surrounding areas. This corresponds to a point of minimum pressure or minimum displacement in the wave.
When particles of a longitudinal wave are far apart, the amplitude of the wave is at a minimum and the pressure or density of the medium between the particles is at its lowest. This corresponds to a point of rarefaction in the wave.
The part of a longitudinal wave with the lowest density is the rarefaction. This is where the particles are spread out, creating a region of lower density compared to the rest of the wave.
The part of a longitudinal wave with the lowest density is the rarefaction, where the particles are spread apart and the pressure is lower than the surrounding medium.
The compression in a longitudinal wave can be thought of as the regions where the particles are closest together, which corresponds to the crest of the wave. This is where the wave is most compacted and has the highest density of particles.
Crest is the highest point for the Transerve wave. Trough is the lowest point of the Transerve wave. Compression is the part of the longitudinal wave where the particles are croweded. Rarefraction is the part of the longitudinal wave where the particles are spread aprat.
The crest of a transverse wave corresponds to the compression region in a longitudinal wave. Both represent the highest point of displacement or disturbance in their respective wave types.
A rarefaction in a longitudinal wave is a region where the particles are spread out, resulting in a decrease in density compared to the surrounding areas. This corresponds to a point of minimum pressure or minimum displacement in the wave.
When particles of a longitudinal wave are far apart, the amplitude of the wave is at a minimum and the pressure or density of the medium between the particles is at its lowest. This corresponds to a point of rarefaction in the wave.
The part of a longitudinal wave with the lowest density is the rarefaction. This is where the particles are spread out, creating a region of lower density compared to the rest of the wave.
The part of a longitudinal wave with the lowest density is the rarefaction, where the particles are spread apart and the pressure is lower than the surrounding medium.
Longitudinal Wave jsuniltutorial.weebly.com
The compression of a longitudinal wave is measured by the measure of how close the particles in the medium are to each other when the wave is at its peak compression point. This can be quantified by measuring the density or pressure of the medium at that point.
The term for an area of high density in a longitudinal wave is a compression. This is where the particles are close together and there is an increase in pressure.
A rarefaction is a region in a longitudinal wave where the particles are spread out, resulting in a decrease in pressure and density compared to the surrounding areas. It is the opposite of a compression, where particles are closer together and pressure is higher.
Rarefaction. It refers to the region where the particles are spread apart, leading to a decrease in density in a longitudinal wave.