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The color white reflects all wavelengths of the visible spectrum. That is why it is the brightest color.
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why does plants color change to black when absorbed all wavelengths
The color that something appears is related to the wavelengths of light that it absorbs. White light contains many different wavelengths. Different objects absorb different wavelengths contained in light. The color than an object appears to our eyes is actually determined by the wavelength of light in the visible spectrum that the object does not absorb. Instead the object reflects this light back at us.
All the colours of the rainbow have different wavelengths. For example, violet has short wavelengths, while red has long wavelengths. Visible light appears as white light because it is a mixture of all the colours. Also, chlorophyll is the principal pigment involved in photosynthesis. Chlorophyll absorbs all the different coloured wavelengths, but leaves green as the colour it reflects and as the colour we see.Therefore, white light is best to grow plants under because green light doesn't do much of anything for photosynthesis.
The color white reflects all wavelengths of the visible spectrum. That is why it is the brightest color.
No black paper is not translucent ts opaque
Carotene reflects orange wavelengths on the visible spectrum.
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It reflects green light and absorbs the other visible wavelengths.
why does plants color change to black when absorbed all wavelengths
The color of an object are defined by the wavelengths of visible light that the object reflects. This reflected light is picked up by our eyes and interpreted as color. The other wavelengths of light are absored.
There are 2 different types of chlorophyll. Chlorophyll "a" absorbs light in the violet and red regions of the visible spectrum while chlorophyll "b" absorbs light in the blue and red regions of the visible spectrum.
because it reflects green light and absorbs the other visible wavelengths
The color that something appears is related to the wavelengths of light that it absorbs. White light contains many different wavelengths. Different objects absorb different wavelengths contained in light. The color than an object appears to our eyes is actually determined by the wavelength of light in the visible spectrum that the object does not absorb. Instead the object reflects this light back at us.
Black objects absorb all or most of the visible wavelengths of light, whereas white objects reflect all wavelengths. When all visible wavelengths (violet to red) enter the eye in equal proportions, the color is perceived as white. When no wavelengths reach the eye, the color is perceived as black. Every other color is a mixture of this continuum of wavelengths.
The longest visible wavelengths are red,