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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).
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.
VIOLET
microwave
gamma rays
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).
No violet light does not have the shortest wavelength. Cosmic rays have the shortest wavelenght which is 10-18 m. Due to its shortest wavelength it has the highest frequency and thus it travels the largest distance.
Of the visible light spectrum, that would be blue light.
Violet, after that comes ultraviolet that the human eye cannot see.
No, red is the longest wavelength of visible light, with the lowest frequency and the least energy. Violet light has the shortest wavelenght, with the highest frequency and the most energy (of visible light).
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.
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.
VIOLET
The form that we call "gamma rays".
microwave
red and blue light differ in wave length because blue lights have shorter wave length than red light and shorter wave length are good for plants germination.
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.