Visible light wiith the lowest frequency / longest wavelength produces
the last color you can see on the red end of the spectrum.
Visible light with the highest frequency / shortest wavelength produces
the last color you can see on the violet end of the spectrum.
Of the colors visible to humans, violet has the shortest wave length and therefore the highest frequency. Bess can see ultraviolet.
red has least frequency 405thz-480thz
Violet light has the shortest wavelength.
white and black is good
The color red has the largest wavelength. The color violet, on the other hand, has the shortest wavelength.
The visible light with the highest frequency and shortest wavelength is the last, bluest light that you can see at the blue end of the spectrum (rainbow).
microwave
Wave length and frequency affect color in a great way. If wavelength is short it is a cool color, if it is long it is a hot color.
gamma rays
The color red has the largest wavelength. The color violet, on the other hand, has the shortest wavelength.
Violet, after that comes ultraviolet that the human eye cannot see.
The visible light with the highest frequency and shortest wavelength is the last, bluest light that you can see at the blue end of the spectrum (rainbow).
Of the visible light spectrum, that would be blue light.
The visible light with the shortest wavelength is the last color you can see on the blue/violet end of the rainbow. It's not exactly the same for all eyes.
The visible light with the shortest wavelength is the last color you can see on the blue/violet end of the rainbow. It's not exactly the same for all eyes.
The form that we call "gamma rays".
microwave
Violet.
length
Wave length and frequency affect color in a great way. If wavelength is short it is a cool color, if it is long it is a hot color.
gamma rays