It depends on what kind of pigment the plant has. The color of the plant is reflected. That means every other color is obsorbed.
mostly the blue and red parts of the spectrum, i believe plants are generally green because of this.
Apparently, pretty much everything except green.
Red part of the spectrum
Chlorophyll (mainly), though there are other accessory pigments. Chlorophyll usually absorbs light mainly in the red-orange to blue-violet parts of the visible light spectrum
Well there are actually different types of cholorophyll, and they absorb light from different parts of the spectrum, however the answer you are probably looking for is that they don't absorb light from the green part of the spectrum. This is in fact why photosynthesizing plants are green.
Additional pigment in plants, other than chlorophyll, enable these to utilize maximum solar radiations. For example carotene and xanthophylls absorb those radiations which remain inaccessible to chlorophyll a & b.
Photosystems are the parts of the Chloroplast that collect sunlight, that light energy will then be turned into chemical energy through the calvin cycle. Josh Mitchell. RCHS
There are two wave lengths that are absorbed well. Red and blue colors are the best.
blue and red light OR anything with red in it
Chlorophyll (mainly), though there are other accessory pigments. Chlorophyll usually absorbs light mainly in the red-orange to blue-violet parts of the visible light spectrum
Well there are actually different types of cholorophyll, and they absorb light from different parts of the spectrum, however the answer you are probably looking for is that they don't absorb light from the green part of the spectrum. This is in fact why photosynthesizing plants are green.
blue and green light
Additional pigment in plants, other than chlorophyll, enable these to utilize maximum solar radiations. For example carotene and xanthophylls absorb those radiations which remain inaccessible to chlorophyll a & b.
Red
Photosystems are the parts of the Chloroplast that collect sunlight, that light energy will then be turned into chemical energy through the calvin cycle. Josh Mitchell. RCHS
There are two wave lengths that are absorbed well. Red and blue colors are the best.
light
Grass and trees appear green due to a pigment called chlorophyll. Chlorophyll is a molecule found in the chloroplasts of plant cells, and it plays a critical role in the process of photosynthesis. Photosynthesis is the process by which plants convert sunlight, water, and carbon dioxide into glucose (a type of sugar) and oxygen. Chlorophyll absorbs light energy, particularly in the blue and red parts of the electromagnetic spectrum, while reflecting or transmitting green light. This reflected green light is what our eyes perceive, making the plants appear green to us. The reason chlorophyll absorbs light most efficiently in the blue and red regions of the spectrum is because these wavelengths carry the right amount of energy to drive the chemical reactions of photosynthesis. The green light is not as effectively absorbed and is therefore reflected back to our eyes. It's worth noting that there are different types of chlorophyll, such as chlorophyll-a and chlorophyll-b, which have slightly different absorption properties. These variations in chlorophyll molecules can contribute to the different shades of green observed in various plants. In summary, grass and trees appear green because chlorophyll, the pigment responsible for photosynthesis, absorbs light energy in the blue and red regions of the spectrum and reflects green light back to our eyes.
Visible light and infrared light are the parts of the electromagnetic spectrum that can be seen with the eye.
Visible light and infrared light are the parts of the electromagnetic spectrum that can be seen with the eye.