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When you shine a different color a light in a prism with it create different colors?
White light contains every color that the human mind can perceive. When shown through a prism, these colors separate, creating a rainbow of colors consisting of red, orange, yellow, green, blue, and violet. If you were to shine one of these colors through another prism, it would separate the color even more, but it wouldn't create any new colors like borlock, shnazzstöfl, or blurple-- it would simply "fan out" that color. So shining yellow light through a prism would cause the yellow light to fan out from "orangish yellow" to "yellowish green" and everything in between.
If you go a step further and shine the "yellowish green" light through yet another prism, it would fan out even more from "yellowish-er green" to "less yellowy green" (all of these are very scientific terms by the way). You could, in principle, keep doing this, but you would quickly reach a point where the human eye could not even tell the difference in the range of colors.
What else can I help you with?
What is the relationship between light, color, and the spectrum of the color wheel?
Light is made up of different colors that can be seen on the color wheel. The spectrum of the color wheel shows the range of colors that can be created by combining different wavelengths of light. Each color on the color wheel corresponds to a specific wavelength of light, and when these colors are combined, they create new colors.
What is the difference between additive color and subtractive color?
Additive color is created by combining different colors of light, such as on a computer screen, where red, green, and blue light are mixed to create various colors. Subtractive color is created by mixing pigments or dyes, such as in printing or painting, where colors are subtracted from white light to create different hues.
How does mixing light to create colors have to do with wavelength?
Mixing light to create colors involves combining different wavelengths of light. Each color corresponds to a specific wavelength within the visible light spectrum. By adjusting the intensity and combination of different wavelengths, we can create a wide range of colors.
What determines a color of light?
The color of light is determined by its wavelength. Different wavelengths of light correspond to different colors in the visible spectrum, with shorter wavelengths being perceived as blue and longer wavelengths as red. Mixing different wavelengths of light can create all the colors of the rainbow.
Is light additive or subtractive?
Light can be both additive and subtractive, depending on the context. In additive color mixing, different colors of light are combined to create new colors, while in subtractive color mixing, colors are created by removing certain wavelengths of light.
What is the relationship between light, color, and the spectrum of the color wheel?
Light is made up of different colors that can be seen on the color wheel. The spectrum of the color wheel shows the range of colors that can be created by combining different wavelengths of light. Each color on the color wheel corresponds to a specific wavelength of light, and when these colors are combined, they create new colors.
What is the difference between additive color and subtractive color?
Additive color is created by combining different colors of light, such as on a computer screen, where red, green, and blue light are mixed to create various colors. Subtractive color is created by mixing pigments or dyes, such as in printing or painting, where colors are subtracted from white light to create different hues.
How does mixing light to create colors have to do with wavelength?
Mixing light to create colors involves combining different wavelengths of light. Each color corresponds to a specific wavelength within the visible light spectrum. By adjusting the intensity and combination of different wavelengths, we can create a wide range of colors.
What determines a color of light?
The color of light is determined by its wavelength. Different wavelengths of light correspond to different colors in the visible spectrum, with shorter wavelengths being perceived as blue and longer wavelengths as red. Mixing different wavelengths of light can create all the colors of the rainbow.
Is light additive or subtractive?
Light can be both additive and subtractive, depending on the context. In additive color mixing, different colors of light are combined to create new colors, while in subtractive color mixing, colors are created by removing certain wavelengths of light.
What is the difference between additive and subtractive color models?
Additive color models involve combining different colors of light to create new colors, as seen in electronic displays. Subtractive color models involve mixing pigments or dyes to absorb certain colors of light and create new colors, as seen in printing.
How is mixing the colors of light different than mixing colors of paint?
Mixing colors of light involves additive color mixing, where different colored lights are combined to create new colors. Mixing colors of paint involves subtractive color mixing, where different pigments are combined to absorb certain wavelengths of light and reflect others, resulting in the perception of different colors.
When you mix colors of a color spectrum it is called?
It is called a trixolated mix of ingrediants
When three primary colors of light overlap what color is produced?
When three primary colors of light (red, green, and blue) overlap, white light is produced. This is known as additive color mixing, where different colors of light are combined to create new colors.
What color you get when you mix all colors?
If you don't add white [which is really an ABSCENCE of color ], you get black. And if you do add white... You get grey. :3333 Not really...
Which term describes any two colors of light that combine to form a white light?
Additive color describes any two colors of light that combine to form white light. This color model involves adding different wavelengths of light together to create new colors.
How does a glass prism refract light to create a spectrum of colors?
A glass prism refracts light by bending different colors of light at different angles, separating them into a spectrum of colors. This happens because each color of light has a different wavelength, causing them to bend by different amounts when passing through the prism.
