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Does the frequencies of the colors of light increase from red to violet?
Yes, the frequency of light increases from red to violet. Red light has the longest wavelength and lowest frequency, while violet light has the shortest wavelength and highest frequency in the visible spectrum.
What happen to the different color of light when white light shines on a opaque violet object?
When white light shines on an opaque violet object, the object absorbs most of the colors in the white light spectrum except violet. The violet light is reflected off the object, making it appear violet to our eyes.
What color light has the highest frequecy?
The color light with the highest frequency is violet. This means that violet light has the shortest wavelength among visible light colors.
Violet light has a very short wavelength. How will violet light react in the process of dispersion?
Violet light will bend the most because it has the shortest wavelength compared to other colors in the visible spectrum. This causes violet light to undergo the most amount of refraction, which results in a greater separation of its colors during the process of dispersion.
Explain what happens to the different colors of light when white light shines on a violet object?
When white light shines on a violet object, the object absorbs most of the wavelengths in the white light spectrum and reflects primarily violet wavelengths. This means that the violet object appears violet because it absorbs other colors and reflects violet.
Does the frequencies of the colors of the light increase from red to violet?
yes, because the violet has the highest frequency than red
Does the frequency of the colors of light increase from red to violet?
yes, because the violet has the highest frequency than red
Does the frequencies of the colors of light increase from red to violet?
Yes, the frequency of light increases from red to violet. Red light has the longest wavelength and lowest frequency, while violet light has the shortest wavelength and highest frequency in the visible spectrum.
What happens to the different colors of light when white light shines on a opaque violet object?
it reflects violet and absorbs the other colors
What happen to the different color of light when white light shines on a opaque violet object?
When white light shines on an opaque violet object, the object absorbs most of the colors in the white light spectrum except violet. The violet light is reflected off the object, making it appear violet to our eyes.
Which colors of light have the shortest wavelengths?
Blue and violet light have the shortest wavelengths in the visible light spectrum.
What happens to the different colors of light when white light shines on opaque violet object?
White light contains all the wavelengths of the visible spectrum at equal intensity. The different colors of light, except violet, are absorbed when white light shines on an opaque violet object. The violet color is reflected.
How visible is light?
By frequency into colors (from red to violet).
Does violet have the shortest wavelengths?
Yes, out of all the colors of visible light, violet has the shortest wavelength.
What color light has the highest frequecy?
The color light with the highest frequency is violet. This means that violet light has the shortest wavelength among visible light colors.
Violet light has a very short wavelength. How will violet light react in the process of dispersion?
Violet light will bend the most because it has the shortest wavelength compared to other colors in the visible spectrum. This causes violet light to undergo the most amount of refraction, which results in a greater separation of its colors during the process of dispersion.
Why does the violet light split into different colors when it passes through the prism?
Violet light does not split into different colors when it passes through a prism.If it goes in violet, it comes out violet.White light is a combination of light of many colors. If you pass white light througha prism, a spread of different colors will come out of the prism, because each colorbends through a slightly different angle on its way through the prism.
