A longitudinal wave can go through solids, liquids, and gases.
A transversal wave will usually only go through solids. (Electromagnetic waves, however, can also go through empty space.)
Rarefaction is the part of a longitudinal wave where the particles are spread apart.
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.
Compression is the part of a longitudinal wave where the particles of the medium are crowded together. Rarefaction is the part where the particles are spread apart.
The part of a longitudinal wave where the particles of the medium are far apart is called the rarefaction. This is a region of decreased particle density in the wave.
In a longitudinal wave, the compression part refers to the region where particles are closely packed together, leading to an increase in pressure. This compression region is followed by a rarefaction, where particles are spread apart, resulting in a decrease in pressure. The alternation between compression and rarefaction causes the wave to propagate through the medium.
Rarefaction is the part of a longitudinal wave where the particles are spread apart.
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.
Compression is the part of a longitudinal wave where the particles of the medium are crowded together. Rarefaction is the part where the particles are spread apart.
The part of a longitudinal wave where the particles of the medium are far apart is called the rarefaction. This is a region of decreased particle density in the wave.
In a longitudinal wave, the compression part refers to the region where particles are closely packed together, leading to an increase in pressure. This compression region is followed by a rarefaction, where particles are spread apart, resulting in a decrease in pressure. The alternation between compression and rarefaction causes the wave to propagate through the medium.
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.
When the particles of a medium are far apart, the part of a wave is called a rarefaction. This occurs in a longitudinal wave when the particles move apart from one another, resulting in a region of decreased density within the medium.
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 less dense part of a longitudinal wave is called the rarefaction. It is the region where the particles are spread out and have lower pressure compared to the denser region called compression in a longitudinal wave.
The part of a wave where molecules are spread out is called the trough. This is the lowest point of the wave, where the particles are farthest apart.
When particles of a medium are far apart, that part of a wave is called a rarefaction. In a rarefaction, the particles are spread out, resulting in lower pressure and density compared to the surrounding medium.
Rarefaction is the less dense part of a compression wave where the particles are spread apart.