Chlorophyll does not absorb light well in the green region of the spectrum because its molecular structure is optimized to absorb mainly blue (around 430 nm) and red (around 670 nm) wavelengths. As a result, it reflects and transmits green light (around 500-550 nm), which is why plants appear green to our eyes. This selective absorption is advantageous for photosynthesis, allowing plants to utilize the most effective wavelengths for energy conversion while avoiding damage from excessive light.
Chlorophyll absorbs light most effectively in the blue and red regions of the visible spectrum. It absorbs less light in the green region, which is why plants appear green to our eyes.
The color of anything is either the color of the light that is reflected from it, or the light that is transmitted through it. The other colors in white light are absorbed. So, since we see leaves as green whether in reflected light or when light shines through them, green is the color which is NOT absorbed.
Chlorophyll primarily absorbs blue and red wavelengths of light for photosynthesis, while reflecting green wavelengths, which is why plants appear green. Some chlorophyll types can absorb a small amount of green light, but the efficiency is much lower compared to blue and red light absorption.
Green light is not absorbed well by chlorophyll, which is why plants appear green to our eyes. This is because chlorophyll absorbs more efficiently in the blue and red regions of the visible spectrum.
Chlorophyll absorbs every color of the sunlight except for green. It is green and it cannot absorb its own color.
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.
Light is white. White is a neutral color that is an equal mix of all the primary colors. Plants are green because they have green chlorophyll. The reason why chlorophyll is green is because when white light emitted by the sun hits a green plant the chlorophyll absorbs the red and blue light but doesn't absorb the green light so the green light bounces off the plant and goes into our eyes making the "plant look green". It is rather more complex to why the chlorophyll doesn't absorb green light and only absorbs red and blue light.
Chlorophyll absorbs light most effectively in the blue and red regions of the visible spectrum. It absorbs less light in the green region, which is why plants appear green to our eyes.
The color of anything is either the color of the light that is reflected from it, or the light that is transmitted through it. The other colors in white light are absorbed. So, since we see leaves as green whether in reflected light or when light shines through them, green is the color which is NOT absorbed.
Mostly green and black
Because they contain chlorophyll. Chlorophyll absorb energy from sun light.
Chlorophyll primarily absorbs blue and red wavelengths of light for photosynthesis, while reflecting green wavelengths, which is why plants appear green. Some chlorophyll types can absorb a small amount of green light, but the efficiency is much lower compared to blue and red light absorption.
Green light is not absorbed well by chlorophyll, which is why plants appear green to our eyes. This is because chlorophyll absorbs more efficiently in the blue and red regions of the visible spectrum.
Chlorophyll absorbs the blue-violet prtion of the electromagnetic spectrum and reflects green
Chlorophyll helps to the plants absorb the light (reflects only the green light, all the other light it absorbs).
Chlorophyll absorbs every color of the sunlight except for green. It is green and it cannot absorb its own color.
Chlorophyll a and b are green because they absorb light in the blue and red spectral regions for photosynthesis but reflect green light, giving them their characteristic color. This green light is not effectively utilized for photosynthesis, hence it is reflected, making chlorophyll appear green to our eyes.