Green light.
If you use the abbreviation ROY G. Biv ( red, orange yellow, green, blue, indigo, violet), you will always know that the red light has the longest wavelength and violet has the smallest wavelength. Wavelength and frequency are inversely proportional to one another. So if the wavelength is large, frequency is small, and when wavelength is small, frequency is large. Green light has a smaller wavelength than yellow. Likewise it has a higher frequency than yellow does. Therefore, green light has a higher frequency than yellow light.
actually plants are green to the human eye because they reflect green light witch in return your eyes absorb so the chlorophyll absorbs the red and the blue while reflecting the green spectrum. btw the plants absorb more blue light than red as blue light contains more energy than red due to the higher Frequency and therefor more energy.
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.
Chlorophyll, the molecule in plant cells that traps sunlight energy which is used to power the photosynthetic assembly of sugars, is green in colour. Any molecule that appears green in colour when illuminated by white light (sunlight), is absorbing all the colours (spectrum) which make up white light EXCEPT the green part of the light spectrum, which it is reflected (so that the green light comes back to our eyes).
no they are more of a light green colour but it depends on what season it is. And also what tree it is.Answer:The leaves of trees are often green however the leaves can also be yellow, red or red/ purple. It all depends on the type of chlorophyll in the leaves, Some conifers like Blue Spruce have a bluish tinge to their needles and trees like maples change colour from green to red and yellow with frost.
Colored plastic wrap can affect plant growth by altering the wavelengths of light that reach the plants. Different colors will filter out or allow in different amounts of light, which can impact photosynthesis and overall growth. It's important to choose the appropriate color based on the specific needs of the plants being grown.
It depends on the context. In terms of wavelength, green light typically has a higher frequency than yellow light because it has a shorter wavelength. However, in everyday life, yellow light is more commonly observed and used in various lighting sources, so it may have a higher frequency of occurrence.
Yes. Blue light has a lower wavelength than yellow light, which is why it is perceived by out eyes as a different color. Blue light's wavelength is around 450 nanometers and yellow light's wavelength is around 575 nanometers. since the speed of light is constant for all light, and frequency is the speed of light over the wavelength of the light, the larger the wavelength, the lower the frequency. And the lower the frequency, the lower the energy. So the shorter wavelength of light (in this case, blue colored light) has a faster frequency, and therefore more energy.
When shining a green object onto a yellow light, the green object would absorb most of the yellow light while reflecting the green wavelengths. This would make the green object appear even brighter and more vibrant due to the contrast created by the yellow light.
Dark green.A more descriptive answer:It depends on the exact spectra the light emits, not just what it looks to us.If the light combines red and green wavelengths, then the green object will appear green, because of the green wavelength. The object may have a yellowish tinge because of small reflection of the red wavelength.If the light is spectral yellow and not just red + green, then the green object will appear a much darker green maybe with a slight yellow or dark-yellow tinge because of, again, small reflection of dominant yellow wavelength.
sunlightBlue and red light is more absorbed. Green and yellow are not preferred.
it depends on what kind of blue and green like a baby blue no a yellow-green no if its like a normal blue and green i think blue.
Yellow light has a shorter wavelength and higher frequency than orange light. This means yellow light appears brighter and more vibrant compared to orange light. Additionally, yellow light contains more energy than orange light.
To make a green you simply mix blue and yellow. If you want it to be a lighter green you add more yellow than blue and if you want a dark/bluey green you add more blue.
Chartreuse yellow is a bright, yellow-green color, while green is a primary color that can vary in shades from light to dark. The main difference is that chartreuse yellow has more yellow in it, giving it a vibrant and unique hue compared to traditional green.
Green already contains yellow - It's a mixture of blue and yellow.
Well yellow and green are color but what I think your asking is" What is yellow is actually green" well if thats the case then sorta. A yellow object actually reflects red and green light, we see it as yellow. On the light spectra there are the three primary colors of light, red, green, and blue. There are also 2 secondary colors, yellow and cyan. Magenta is a secondary color but it doesn't appear on the spectra like white so its a phantom color. You'll noticed that magenta is similar to red, cyan is to blue and yellow is to green. if you pick a color in between yellow and green it'll appear more green than yellow since its a primary color of light, making it naturally darker than most colors. I hope I answered your question.
Chlorophyll A absorbs more red light and appears blue-green, while chlorophyll B absorbs more blue light and appears yellow-green. They work together in photosynthesis to capture different wavelengths of light for energy conversion. Overall, chlorophyll A is more abundant in plants compared to chlorophyll B.