The region of a longitudinal wave where the particles of the medium are closest together is called a compression. Particles in a compression are densely packed, resulting in an area of high pressure.
In a longitudinal wave, the particles of the medium oscillate back and forth in the same direction as the wave propagation. When the particles are close together, the wave is in compression, where the particles are closest together.
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 region where the medium is crowded and dense in a longitudinal wave is called compression. In this region, the particles of the medium are close together, resulting in increased pressure.
The region where the medium is crowded and dense in a longitudinal wave is called a compression. In a compression, the particles of the medium are closer together, leading to an increase in density and pressure compared to areas where the particles are more spread out (rarefaction).
The close together parts of a longitudinal wave are called compressions. In a compression, the particles of the medium are tightly packed together, resulting in an area of high pressure.
In a longitudinal wave, the particles of the medium oscillate back and forth in the same direction as the wave propagation. When the particles are close together, the wave is in compression, where the particles are closest together.
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 region where the medium is crowded and dense in a longitudinal wave is called compression. In this region, the particles of the medium are close together, resulting in increased pressure.
The region where the medium is crowded and dense in a longitudinal wave is called a compression. In a compression, the particles of the medium are closer together, leading to an increase in density and pressure compared to areas where the particles are more spread out (rarefaction).
The close together parts of a longitudinal wave are called compressions. In a compression, the particles of the medium are tightly packed together, resulting in an area of high pressure.
The rarefaction is the area of a longitudinal wave where the particles of the medium are spread out. This region is where the particles are farther apart compared to the rest of the wave.
In a longitudinal wave, particles of the medium oscillate in the same direction that the wave is traveling. The particles move back and forth parallel to the direction of the wave.
When the particles of a medium displaces due to compression and rarefaction in the direction of the force, it is known as longitudinal waves.
The compression of a wave is located where the particles of the medium are closest together.
The point of highest density in a longitudinal wave is at the compression stage, where particles are closest together. This is due to the wave causing particles to compress and rarefy as it travels through a medium.
In longitudinal waves in a spring, the parts where the particles are closest together are called compressions, while the parts where the particles are farthest apart are called rarefactions. These alternating compressions and rarefactions create the wave motion that travels through the medium.
The bunched up parts in longitudinal waves are called compressions. These are regions where the particles of the medium are crowded together.