That is called the wavelength.
sound wave
The distance between adjacent wave compressions is called the wavelength. Wavelength is typically measured from the peak of one compression to the peak of the next compression in a wave. It is a fundamental property of waves and is inversely related to the frequency of the wave.
The wavelength of a compressional wave is the distance between two adjacent compressions or rarefactions.
The difference between adjacent wave compressions is the distance between their peaks or troughs. The wavelength is the physical distance between two adjacent wave compressions, while the frequency represents the number of compressions passing a fixed point per unit of time.
Wavelength is the measure of distance between adjacent crests or troughs.
sound wave
Wave length.
The distance between adjacent wave compressions is called the wavelength. Wavelength is typically measured from the peak of one compression to the peak of the next compression in a wave. It is a fundamental property of waves and is inversely related to the frequency of the wave.
sound wave
The wavelength of a compressional wave is the distance between two adjacent compressions or rarefactions.
The difference between adjacent wave compressions is the distance between their peaks or troughs. The wavelength is the physical distance between two adjacent wave compressions, while the frequency represents the number of compressions passing a fixed point per unit of time.
Wavelength is the measure of distance between adjacent crests or troughs.
The distance between consecutive crests of a wave is called the wavelength. It is the distance between any two adjacent points on a wave that are in phase with each other.
The distance between two adjacent wave crests or troughs is called the wavelength.
Wavelength is the measure of distance between adjacent crests or troughs.
wavelength
No, the distance between one compression and the next compression in a longitudinal wave is its wavelength, not its amplitude. The amplitude of a wave is the maximum displacement of a particle from its rest position as the wave passes through it.