The distance between two consecutive wave crests (or troughs) is called the wavelength. It is typically measured in meters and is an important characteristic of a wave.
The wave length. This is also correct if you are referring to the distance between the trough of two waves.
The term for the distance between two crests of water waves is wavelength.
The relationship between the distance from a source of electromagnetic waves and the electromagnetic wave intensity at that distance is inversely proportional. This means that as the distance from the source increases, the intensity of the electromagnetic waves decreases.
If the number of waves passing by per unit time increases, the distance between each crest will decrease. This is because the frequency of the waves is directly related to the distance between the crests - as the frequency or number of waves increases, the distance between each crest decreases.
The distance between the crest of consecutive waves is called the wavelength. It is measured as the distance between two successive points in the same phase of a wave, such as from crest to crest or trough to trough.
The crest?
The wave length. This is also correct if you are referring to the distance between the trough of two waves.
The term for the distance between two crests of water waves is wavelength.
The relationship between the distance from a source of electromagnetic waves and the electromagnetic wave intensity at that distance is inversely proportional. This means that as the distance from the source increases, the intensity of the electromagnetic waves decreases.
The wave's wavelength is the name is the distance between wave crest.
If the number of waves passing by per unit time increases, the distance between each crest will decrease. This is because the frequency of the waves is directly related to the distance between the crests - as the frequency or number of waves increases, the distance between each crest decreases.
The distance between the crest of consecutive waves is called the wavelength. It is measured as the distance between two successive points in the same phase of a wave, such as from crest to crest or trough to trough.
As the distance from the earthquake to the seismograph station increases, the time interval between the arrival of P waves and S waves also increases. This is because S waves travel slower than P waves, so the further distance allows more time for the S waves to catch up and be recorded after the P waves.
A Wavelength.
The wavelength is the distance between two consecutive corresponding points on a wave.Distance between two crests is the wavelength of a wave.
The distance between a seismological recording station and the earthquake source is determined from the arrival times of seismic waves at the station. By comparing the arrival times of P-waves and S-waves, seismologists can calculate the distance to the earthquake source using the difference in their arrival times.
The difference between the arrival times increases as the distance from an earthquake epicentre increases as S-waves travel more slowly than P-waves so the greater the distance the further they lag behind.