Wavelength is directly related to the color of light. Different colors are associated with different wavelengths of light. For example, red light has longer wavelengths compared to blue light. When light enters our eyes, the color we perceive is based on the wavelength of the light.
Violet has the smallest wavelength among the visible colors.
The length of a full cycle of a wave is called a "wavelength".
Orange light typically has a wavelength ranging from about 590 to 620 nanometers.
The three main factors that affect the height, length, and period of a wave are wind speed, the duration of time the wind has blown in a certain direction (fetch), and the distance over which the wind has blown (fetch length). These factors influence the energy transfer from the wind to the water surface, determining the characteristics of the resulting waves.
If the speed and length of a wave decrease, the frequency of the wave will also decrease. This means the wave will have a lower pitch or tone.
No....
red Type your answer here...
d wave length of violet colour is more than d wavelength of blue colour
Lowers the frequency, as it now takes longer for the wave to complete one cycle.
Just ONE property, the wavelength of the light. The colour of visible light depends on its wavelength. These wavelengths range from 700 nm at the red end of the spectrum to 400 nm at the violet end.
Violet has the smallest wavelength among the visible colors.
When you shorten the wave length, you increase the amplitude.
since,wavelenth is inversely propotional to angle of deviation, red colour has the smalllest angle of deviation. so we can say that wave length of red colour is then longest
The length of a full cycle of a wave is called a "wavelength".
Ultraviolet has the longer wave length Infrared has the lower wave length
Orange light typically has a wavelength ranging from about 590 to 620 nanometers.
The three main factors that affect the height, length, and period of a wave are wind speed, the duration of time the wind has blown in a certain direction (fetch), and the distance over which the wind has blown (fetch length). These factors influence the energy transfer from the wind to the water surface, determining the characteristics of the resulting waves.