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Minimum Photosynthesis Occurs In Which Wavelength Of The Visible Spectrum
Question
Introduction
Photosynthesis is the process by which plants convert light energy into chemical energy. In order to be able to carry out this process, leaves contain specialized pigments that absorb light of certain wavelengths and reflect others. When sunlight hits the surface of a leaf, it excites electrons within these pigments which then transfer their energy to other molecules in a chain reaction. This creates ATP (Adenosine Triphosphate) which provides the energy needed for photosynthesis to occur by converting carbon dioxide and water into glucose (sugar).
The reason why different wavelengths of light affects photosynthesis differs depending on the plant type but the basic process is the same.
In order for plants to convert sunlight into energy, they must first absorb it and then use that energy to produce sugar from carbon dioxide and water. Plants do this through a process called photosynthesis. When light strikes a plant leaf, photons (particles of visible light) are absorbed by pigments in chloroplasts within plant cells and converted into chemical energy that fuels growth, reproduction and other functions in plants
When sunlight hits plants, it excites electrons which move to a higher energy level and then fall back down to their original state.
When sunlight hits plants, it excites electrons which move to a higher energy level and then fall back down to their original state. This process is known as photosynthesis and occurs in what is referred to as an electron transport chain from which ATP is produced which provides the energy for photosynthesis to occur.
The light that reaches your eyes has been filtered through many layers of atmosphere and water before you see it. Different wavelengths of visible light have different energies; longer wavelengths have lower energies than shorter ones (see diagram below).
The electrons move in what is referred to as an electron transport chain from which ATP is produced which provides the energy for photosynthesis to occur.
In order to produce ATP, the electrons move in what is referred to as an electron transport chain from which ATP is produced which provides the energy for photosynthesis to occur.
ATP (adenosine triphosphate) is a high-energy molecule that serves as a source of energy for plants and other organisms. It consists of three phosphate groups, each containing one oxygen atom linked together by two phosphoanhydride bonds.
The pigment molecules absorb visible light at certain wavelengths, so that all colors of visible light are absorbed but not others.
Pigments are the molecules in plants that absorb visible light. Pigments are made up of different types of molecules, each absorbing a specific wavelength of visible light. For example, chlorophyll absorbs all colors except green, which is what gives leaves their characteristic color. This is why when you look at plants under sunlight, they appear green!
Takeaway:
Photosynthesis is the process by which plants convert light energy into chemical energy. Photosynthesis occurs in all plants and algae, although some species of bacteria are capable of producing organic compounds using similar processes.
This is a very simplified explanation of what happens when plants photosynthesize, but it’s important to understand how it works. The more you know about your environment and how it affects your body and mind, the better off you’ll be!
Answers ( 2 )
Minimum Photosynthesis Occurs In Which Wavelength Of The Visible Spectrum
Introduction
Photosynthesis is the process by which plants convert light energy into chemical energy, which they can then use to fuel their growth and metabolism. In other words, photosynthesis is what makes plants possible. Most of us don’t think about it much, but photosynthesis is actually an incredibly complex process. In order to understand it better, we need to look at the light that photosynthesizing plants use to do their job.
What Wavelength of the Visible Spectrum Contains Minimum Photosynthesis?
The visible spectrum contains many colors that are important for human sight. Some colors are necessary for photosynthesis, the process by which plants produce food from sunlight.
One wavelength of the visible spectrum, called red, has minimum photosynthesis. This means that plants get the most energy from this color and stop growing when exposed to too much red light.
Discussion
Photosynthesis occurs in the visible spectrum and is the process by which plants convert light energy into chemical energy to produce glucose from carbon dioxide and water. It is important to note that photosynthesis cannot occur when light falls into the red or infrared portions of the spectrum. Minimum photosynthesis occurs at around 680 nanometers (nm) wavelength, while maximum photosynthesis occurs at around 800 nm.
Conclusion
In conclusion, the minimum photosynthesis occurs in which wavelength of the visible spectrum. The peak absorbance at 555 nm corresponds to the highest intensity of CO2 absorption by plants in the visible light range. Plants use this energy to produce organic molecules from carbon dioxide and water.
Photosynthesis is the process by which plants use sunlight to synthesize food from carbon dioxide and water. The visible spectrum of light, which ranges from violet to red, is essential for this process. However, not all wavelengths of this spectrum are equally important for photosynthesis. In fact, there is a specific wavelength where minimum photosynthesis occurs.
According to research studies, the wavelength at which minimum photosynthesis occurs in the visible spectrum is around 510 nanometers. This wavelength corresponds to green light, which is often reflected by leaves and gives them their characteristic color. While green light does play a role in photosynthesis, it has less energy than other wavelengths such as blue or red light. As a result, chlorophyll – the pigment that captures light during photosynthesis – absorbs less of this wavelength compared to others.