Other plants can but you should see what happens
No, green plants appear green because chlorophyll pigments in their cells reflect green light while absorbing other wavelengths for photosynthesis. Green light is not efficiently absorbed by chlorophyll, so it is reflected back, giving plants their green color.
There is a reason why plants appear green. Inside a plant, the plastid chloroplast contains green pigment that reflects green light. This means that plants do not use green lights in large amounts (there are some other plastids that uses the color green, but there are few in number). So when you give plants green light, they cannot use it as efficient as they would if it was a different color.
No, not all plants have green pigments. While chlorophyll is the most common pigment that gives plants their green color, some plants may have other pigments like red, yellow, or purple. These pigments can help the plants absorb different wavelengths of light for photosynthesis.
In a plant cell, the most abundant plastid is the chloroplast, which contains the pigment chlorophyll. Chlorophyll absorbs most of the sunlight, but reflects the green, which is why you see green. It is reflected from the pigments inside the chloroplast.
Chlorophyll (B)
No, green plants appear green because chlorophyll pigments in their cells reflect green light while absorbing other wavelengths for photosynthesis. Green light is not efficiently absorbed by chlorophyll, so it is reflected back, giving plants their green color.
There is a reason why plants appear green. Inside a plant, the plastid chloroplast contains green pigment that reflects green light. This means that plants do not use green lights in large amounts (there are some other plastids that uses the color green, but there are few in number). So when you give plants green light, they cannot use it as efficient as they would if it was a different color.
No, not all plants have green pigments. While chlorophyll is the most common pigment that gives plants their green color, some plants may have other pigments like red, yellow, or purple. These pigments can help the plants absorb different wavelengths of light for photosynthesis.
Yes, humans are heterotrophs, ' other eaters, ' while plants are autotrophs, ' self eaters. '
animals depends on other animal while plants depends on it self
Green light does not promote photosynthesis because it is reflected off of a plants leaves. While most plants absorb all other wavelengths of electromagnetic rays from the sun, they reflect the wavelength for green light.
In a plant cell, the most abundant plastid is the chloroplast, which contains the pigment chlorophyll. Chlorophyll absorbs most of the sunlight, but reflects the green, which is why you see green. It is reflected from the pigments inside the chloroplast.
animals depends on other animal while plants depends on it self
Not necessarily. While many plants are green due to chlorophyll, there are other organisms like algae and some bacteria that can also be green. So, being green does not always mean something is a plant.
Chlorophyll (B)
Fungi are heterotrophic organisms that obtain nutrients through absorption, while green plants are autotrophic and perform photosynthesis to make their own food. Fungi do not contain chlorophyll, which is essential for photosynthesis in green plants. Additionally, fungi have cell walls made of chitin, while green plants have cell walls made of cellulose.
Green plants produce their own food through photosynthesis, using sunlight, water, and carbon dioxide to make glucose. In contrast, animals obtain nutrients by consuming other organisms or feeding on organic matter. Plants are autotrophic, while animals are heterotrophic.