sound behaves as a compressional wave, look at a photo of it. I'll try to draw it, but it 's gonna suck
direction of propagation ----->
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The disturbance that travels through a medium as a compressional wave is called a longitudinal wave. In this type of wave, the particles of the medium move parallel to the direction of the wave's energy propagation. Sound waves are a common example of longitudinal waves.
In a compressional wave where matter is tightly packed together, the particles within the medium are closer to each other than in a wave with lower compression. This results in higher pressure and density in the medium, allowing the wave to propagate more efficiently through the substance.
A P wave is a type of seismic wave generated by an earthquake that travels the fastest through the Earth's layers. It is the first wave to arrive at a seismograph station and is known as a compressional wave because it pushes and pulls the rock particles as it moves.
1. A compression wave is when the particles in a wave are close together and not spread out. 2. A compression wave is where the pressure in the waves is higher than atmospheric pressure in that particular area where the particles come together.
shear waves: move side to side, only move through solids, are also called secondary waves, are slower than compressional waves, travel perpendicular to the medium compressional waves: move straight in one direction, can move through solid, liquid and gas, are also called primary waves, are faster, travel parallel to the medium
A sound wave is a compressional wave, which means the particles in the medium vibrate parallel to the direction of the wave propagation. This compression and rarefaction of particles create the variations in pressure that we perceive as sound.
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 compressional wave, particles vibrate parallel to the direction of the wave motion. The particles move back and forth in the same direction that the wave is traveling, causing compressions and rarefactions as the wave passes through the medium.
The part of a compressional wave with the greatest density is the compression region, where particles are closest together due to the wave's compressional nature. This region represents the highest density of particles in the wave's pattern.
this is the waves of p waves that have same direction of waves
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.
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.
The area on a compressional wave where particles are spread out is called a rarefaction. In a rarefaction, the particles are further apart compared to the surrounding areas where they are closer together. This alternating pattern of compressions and rarefactions is characteristic of a longitudinal wave such as a sound wave.
Longitudanal or compressional waves
a compressional wave
The region of a compressional wave where particles are close together is called the compression zone. In this zone, particles are crowded closely together, creating areas of high pressure.