wavelength
The wave length.
Frequency: number of cycles per second. Period: the distance between two crests. The period depends not only on the frequency, but also on the wave's speed.
On a wave pattern, the measurement of distance between two corresponding wave peaks, troughs or crests will give the wavelength.
Depends what the frequency is.
If you are referring to the crests of a wave then the distance is called the wavelength ( λ)
The wavelength is the distance between two consecutive corresponding points on a wave.Distance between two crests is the wavelength of a wave.
The wave length.
Frequency: number of cycles per second. Period: the distance between two crests. The period depends not only on the frequency, but also on the wave's speed.
On a wave pattern, the measurement of distance between two corresponding wave peaks, troughs or crests will give the wavelength.
Depends what the frequency is.
wavelength
If you are referring to the crests of a wave then the distance is called the wavelength ( λ)
wavelength
The wavelength.
the wavelength
the maximum displacement of a wave particle is called the amplitude.also wave particles at maximum displacement form crests.therefore the amplitude of two crests should be the same.hence the amplitude of the wave when two crests meet is two times the amplitude of one the two crests.
If you measure the distance between any two successive or consecutive crests in case of transverse wave is called the wavelength. If we get the distance between any two crests that will be definitely an integral multiple of the wavelength. The same in case of longitudinal waves. The distance between two successive rarefactions is known to be the wavelength.