Nav Menu 7 Nav Menu 8 You are here: This is a very common question and quite understandable with all the options available in the market. To answer effectively we must understand a couple things. First, what light wavelengths do plants need to thrive.
It is also dependent on producing by solar, so it is higher in white. We can show green leaf always green colour in white light. In red blue and yellow we show it dark colour.
WHITE is produced by all these 7 colors so white is correct. Mar 22, White light is correct answer because it is longest wavelength because it contains all the lights that have been get mp3 and all seven call alert that had. May 25, Photosynthesis is faster in green and red light if it is white I want some clear answer why it is faster in white.
May 28, What about darkness, is it in 2nd position? Jun 18, Wouldn't darkness be the opposite of light? Oct 30, Answer is red light because photosynthetic activity is more during this period.
Dec 21, I think red is right answer because it has longest wavelength. Jan 9, Max rate of Photosynthesis is in red light, and min rate of Photosynthesis is in green please clarify it if I am wrong. Mar 20, I think red is the answer.
Since photosynthesis takes place in red and blue light. But I partially agree that it is white because when white light is present it not only has the red region but also has the blue. Therefore PS rate increases when supplied with white light. So, maybe white light is the correct answer after all. Apr 13, Why no photosynthesis takes place in blue color light, and why minimum photosynthesis takes place in green color light, and Why the rate of photosynthesis is maximum in red color light?
That is a great question, light is a very tricky thing as it comes in various forms of energy levels. UV light close to purple and blue is very high energy and that's why we get sunburned.
On the other side of the spectrum is Infrared close to red which is seen in night vision goggles and can be seen from heat emitting from our bodies, a relatively low energy light.
Plants, just like us can only tolerate certain wavelengths of light, especially for the chemical reactions of photosynthesis. Photosynthesis occurs when pigments, molecules in the plant cell, absorb light photons and transfer them around to create chemical energy.
These pigments are picky in terms of which light they can use. There are two types of Chlorophyll pigments, A and B. Chlorophyll A absorbs a lot of red and some blue while Chlorophyll B absorbs a lot of blue and some red. Neither absorb green much which is why plants appear green.
Chlorophyll absorbs red light. No light gets absorbed by chlorophyll means the plant can't do photosynthesis. Trees and plants are green because of a green pigment called chlorophyll.The membrane and the space inside it (shown in yellow), is where the light or light-dependent reaction takes place.
The so-called dark, or light independent reactions, take place in . The rate of photosynthesis is the least with green-yellow light ( nm nm). Red-orange light (nmnm) shows a good rate of photosynthesis however the best rate of photosynthesis is seen with violet-blue light (nmnm).
What light will be usable for photosynthesis depends on which version of light absorbing protein is being used to capture energy from photons. This diagram would indicate that pure yellow would be pretty ineffective for any pigment. Chlorophyll absorbs light, and the energy of that absorbed light makes photosynthesis work Describe the relationship between chlorophyll and the color of plants.
Plants are green because green light is reflected by the chlorophyll in the leaves. Do Plants Consume or Release CO 2? 1. Background. In this lab, you will use phenol red as an indicator to show whether CO 2 is being consumed or produced in a reaction within plants..
It is well known that in the presence of light plants perform photosynthesis. Why no photosynthesis takes place in blue color light, and why minimum photosynthesis takes place in green color light, and Why the rate of photosynthesis is maximum in red color light? Answer 1: That is a great question, light is a very tricky thing as it comes in various forms of energy levels.