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Blue light.
The wavelengths are corresponded to the color of the light. A blue object will reflect any light radiation expect the color blue. It will absorb the blue light.
carotenoids
Dark objects absorb wavelengths of energy that are in the visible spectrum of the electromagnetic radiation spectrum. A black shirt has molecules in it thatt absorbs energies of blue and green and all other colors we humans perceive. White light is made from all of the colors combined. A white shirt has atoms and molecules that absorb all the colors of light and release that energy outwards again.
Carotenoids reflect yellow-orange light and absorb blue-green light.
Blue light.
because the light reflect of the blue shirt and can make ur eyes even look blue
because it reflect blue colour and other absorb, asad rwp pak
The color black absorbs way more height then light blue. Lighter colors reflect more height then they absorb, black absorbs all height.
The wavelengths are corresponded to the color of the light. A blue object will reflect any light radiation expect the color blue. It will absorb the blue light.
carotenoids
Dark objects absorb wavelengths of energy that are in the visible spectrum of the electromagnetic radiation spectrum. A black shirt has molecules in it thatt absorbs energies of blue and green and all other colors we humans perceive. White light is made from all of the colors combined. A white shirt has atoms and molecules that absorb all the colors of light and release that energy outwards again.
Carotenoids reflect yellow-orange light and absorb blue-green light.
it would look red because the light would reflect on the grass ddddddddddddddduhhhh lol jk
carotenoids: absorb blue- violet chlorophyll: absorb red and also blue-violet reflect red-yellow reflect green
YES. Plants absorb AND reflect green light. Leaves are green due to a compound called chlorophyll. The light absorbed by chlorophyll is used to power photosynthesis, the conversion of light energy into chemical energy. On a relative basis, chlorophyll absorbs more blue and red light, compared to green light; and therefore reflects less red and blue light. As a result, there is more green light than red or blue light reflected, so the chlorophyll containing part of the plant appears green. It is commonly thought that chlorophyll does not absorb green light, but that is a fallacy. A dark green leaf can absorb 90% of the green light impinging on it. In contrast, 95% of the red and blue light may be absorbed.
Phytoplankton absorb red and blue light, but reflect green light. Therefore, the presence and amount of phytoplankton can indicate the health of the ocean.