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Which of the following colors of visible light has the highest frequency?
Wiki User
∙ 12y ago
Which color in the visible spectrum of hydrogen has the highest frequency?
Wiki User
∙ 13y ago
Wiki User
∙ 12y agoThe last color you can see on the violet end of the rainbow has the highest
frequency that's visible to your individual eyes.
Wiki User
∙ 11y agoIt's the last color you can see at the violet end of the spectrum.
Wiki User
∙ 12y agoGamma radiation has the highest frequency
Wiki User
∙ 13y agon=3 → n=1
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Which colors of visible light have the highest and lowest frequency?
Red light has the lowest frequency and violet, the highest. The colors of visible light, in order from lowest frequency to highest: Red, Orange Yellow, Green, Blue, Indigo, Violet.
What is a low frequency color of visible light?
Red is the lowest. From there, frequencies increase, in the order of the colors of the rainbow, until you reach the highest visible frequency at violet.
The order of colors observed in the visible light spectrum is determined by the?
Colors are ordered by frequency, or equivalently, by wavelength.
How do light colors have higher frequencies and darker colors have lower frequencies?
Darker colors like violet and blue actually have the shortest wavelengths and the highest frequency. If you look at the visible spectrum, the order from highest to lowest would go violet, blue, green, yellow, orange, red.
Why do you think a rainbow is always the same order of colors?
It goes in order from highest frequency beam, violet, to lowest frequency, red.
Which colors of visible light have the highest and lowest frequency?
Red light has the lowest frequency and violet, the highest. The colors of visible light, in order from lowest frequency to highest: Red, Orange Yellow, Green, Blue, Indigo, Violet.
What is a low frequency color of visible light?
Red is the lowest. From there, frequencies increase, in the order of the colors of the rainbow, until you reach the highest visible frequency at violet.
Is the frequeny of different colours of light is equal?
No, different colors of visible light have different frequency. For example, Violet color has highest frequency in visible spectrum and Red color has lowest.
How are the light waves of colours different from each other?
Each color has a different frequency and wavelength; with red having the longest wavelength and lowest frequency of all the visible colors & violet having the shortest wavelength and highest frequency of the colors humans can see.
How visible is light?
By frequency into colors (from red to violet).
How is visible light subdivided?
By frequency into colors (from red to violet).
The order of colors observed in the visible light spectrum is determined by the?
Colors are ordered by frequency, or equivalently, by wavelength.
What is the color with the shortest wave length?
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.
How many colors are there in black?
There are no colors in black ! Colors are governed by the frequency (temperature) with which light is reflected from an object. White has the highest reflection frequency where as black does not reflect at all
How do light colors have higher frequencies and darker colors have lower frequencies?
Darker colors like violet and blue actually have the shortest wavelengths and the highest frequency. If you look at the visible spectrum, the order from highest to lowest would go violet, blue, green, yellow, orange, red.
Does the frequency of the colors of light increase from red to violet?
yes, because the violet has the highest frequency than red
What does roy g biv look like?
like the colors of the rainbow. violet has the least wavelength or the greatest frequency possible that humans can see and marks one end of the visible spectrum in the electromagnetic spectrum. red has the highest wavelength or least frequency possible that humans can see and marks the other end of the visible spectrum of the electromagnetic spectrum.
