Want this question answered?
A longitudinal wave. In case you don't know what that means, a longitudinal wave is a wave in which the particle vibrate to and fro in a direction that is parallel to the direction in which the wave is travelling.
As sound is an example of a longitudinal wave, sound has a series of compressions and rarefactions.To explain a bit more, compressions are the squeezes of the wave while rarefactions are the stretches of the wave.
Rarefractions
it is compressional wave. Compressional waves are a type of sound wave.
The type of wave in which the particles in the medium experience forces parallel to the wave's direction is the longitudinal wave. It is a mechanical wave that travels through a series of compressions and rarefactions.
A longitudinal wave. In case you don't know what that means, a longitudinal wave is a wave in which the particle vibrate to and fro in a direction that is parallel to the direction in which the wave is travelling.
As sound is an example of a longitudinal wave, sound has a series of compressions and rarefactions.To explain a bit more, compressions are the squeezes of the wave while rarefactions are the stretches of the wave.
Rarefractions
it is compressional wave. Compressional waves are a type of sound wave.
For refraction to occur in a wave, the wave must enter a new medium at an angle.
The type of wave in which the particles in the medium experience forces parallel to the wave's direction is the longitudinal wave. It is a mechanical wave that travels through a series of compressions and rarefactions.
The type of wave in which the particles in the medium experience forces parallel to the wave's direction is the longitudinal wave. It is a mechanical wave that travels through a series of compressions and rarefactions.
The type of wave in which the particles in the medium experience forces parallel to the wave's direction is the longitudinal wave. It is a mechanical wave that travels through a series of compressions and rarefactions.
Neon cat
The change in wave speed causes refraction sinv1/v1 = sinv2/v2.
That is called refraction.
These are the characteristics of any thing that suggests a wave like motion . For example the sound waves