The color of light is related to its frequency or wavelength.
Wavelength, or alternatively its frequency.
Yes. It is correct to say that color has frequency.
Frequency and amplitude are not related. Frequency and wavelength are related. The are the inverse of one another.
All color is imaginary and is constructed by your brain - it's a code for the frequencies of reflected light.
The color of light is related to its frequency or wavelength.
Wavelength, or alternatively its frequency.
Wavelength, or alternatively its frequency.
Yes. Every different frequency (wavelength) of light is perceived as a different color by the human eye. Except in colorblind people, that is.
Radar waves have a lower frequency that light waves.The frequency of a light wave is related to wavelength and speed by the equation c = »½. The color of a light wave is also determined by the frequency. The amplitude and brightness are not related to the frequency.
Yes. It is correct to say that color has frequency.
All color is imaginary and is constructed by your brain - it's a code for the frequencies of reflected light.
Frequency and amplitude are not related. Frequency and wavelength are related. The are the inverse of one another.
Every color has a different frequency. That's why it appears to our eyes as a different color.
As far as visible light is concerned violet has highest frequency and shortest wavelength where as red has lowest frequency and so longest wavelength VIBGYOR is the order of colours in the visible spectrum
Frequency determines color. Frequency is determined by the origin of the photon, i.e. emitted from an excited atom.
Frequency controls the color of the light.