Green wave length of light is reflected hence chlorophyll looks green .
Chlorophyll reflects green light and absorbs violet-blue
the wavelengths of lights are being absorbs, but since green is appearing and we see it, meaning that the green color wavelength is being reflected.
There are 2 different types of chlorophyll. Chlorophyll "a" absorbs light in the violet and red regions of the visible spectrum while chlorophyll "b" absorbs light in the blue and red regions of the visible spectrum.
chlorophyll reflects green in color because it absorbs red color than any other at higher wavelengths. as green is the complimentary color of red it appears green in color
it is defined as variation of colors in some cyanobacterias w.r.t. change in wavelength of light i.e, as falling of lights of different wavelengths,cyanobacterias appears of different colors.e.g.Oscillatoria.
Plant appear green because they contain green pigment called chlorophyll. When sunlight fall on the leaves then chlorophyll absorb this light and some part of light reflected back and come into our eyes. So plants appears green.
Chlorophyll (also chlorophyl) is a green pigment found in almost all plants, algae, and cyanobacteria. Its name is derived from the Greek words χλωρος, chloros ("green") and φύλλον, phyllon ("leaf"). Chlorophyll is an extremely important biomolecule, critical in photosynthesis, which allows plants to obtain energy from light.
The color that something appears is related to the wavelengths of light that it absorbs. White light contains many different wavelengths. Different objects absorb different wavelengths contained in light. The color than an object appears to our eyes is actually determined by the wavelength of light in the visible spectrum that the object does not absorb. Instead the object reflects this light back at us.
There are 2 different types of chlorophyll. Chlorophyll "a" absorbs light in the violet and red regions of the visible spectrum while chlorophyll "b" absorbs light in the blue and red regions of the visible spectrum.
All the colours of the rainbow have different wavelengths. For example, violet has short wavelengths, while red has long wavelengths. Visible light appears as white light because it is a mixture of all the colours. Also, chlorophyll is the principal pigment involved in photosynthesis. Chlorophyll absorbs all the different coloured wavelengths, but leaves green as the colour it reflects and as the colour we see.Therefore, white light is best to grow plants under because green light doesn't do much of anything for photosynthesis.
Photons of light have different colors because they have different energies resulting in different wavelengths. There is no such thing as white light - it is a mixture of all the various wavelengths - red, blue, green, etc. - and we perceive it as white.
White light appears white because it is a conglomeration of all the different wavelengths of light. A prism will separate the different wavelengths because they refract (or bend) at different angles through the prism.
chlorophyll reflects green in color because it absorbs red color than any other at higher wavelengths. as green is the complimentary color of red it appears green in color
Chlorophyll is a biomolecule that appears to be green because light is reflected back to the eyes as chlorophyll only absorbs red and blue. Without this critical biomolecule, photosynthesis would be unable to occur
it is defined as variation of colors in some cyanobacterias w.r.t. change in wavelength of light i.e, as falling of lights of different wavelengths,cyanobacterias appears of different colors.e.g.Oscillatoria.
YES
transparent
It is determined by the wavelengths of light that reach your eyes.
Chloroplasts in the leaves contain Chlorophyll which is used by plants to produce food and Oxygen through Photosynthesis Edited answer: When sunlight (or any short of light for that reason) falls on the leaves containing chlorophyll, it reflects the green spectrum of light. Therefore, all chlorophyll containing plants (being producers) are green in color.