the wave decreases.
When wavelength increases, frequency decreases.
As wavelength decreases, frequency increases
The wavelength decreases since they are inversely proportional.
As wavelength decreases, energy increases, because the two are inversely related. Conversely, as wavelength decreases, frequency increases.
if the speed increases the frequency increases if the speed decrease the frequency decreases
As wavelength increases the frequency decreases.
When wavelength increases, frequency decreases.
As wavelength decreases, frequency increases
Frequency Increases
The wavelength decreases since they are inversely proportional.
The wave's wavelength decreases correspondingly.
As wavelength decreases, energy increases, because the two are inversely related. Conversely, as wavelength decreases, frequency increases.
Its frequency increases. Its energy increases (all other parameters being equal).
if the speed increases the frequency increases if the speed decrease the frequency decreases
Using the relationship C = n lambda C - velocity of light, n-frequency of radiation and lambda- the wavelength. So as frequency increases definitely its wavelength decreases.
As a wavelength increases in size, its frequency and energy (E) decrease.
When wavelength decreases, frequency increases, and when wavelength increases, frequency decreases. The product of (wavelength) times (frequency) is always the same number ... the speed of the wave. So when one of them changes, the other one must change in the opposite direction in order for their product to remain unchanged.