The capacity of photosynthesis to convert Solar energy into Chemical energy provides both a nutritional and an energy basis for all heterotrophic living things.
Green plants and certain other organisms convert solar energy into chemical energy through a process called photosynthesis.
Light energy is gathered and utilized during photosynthesis in green plants to change water, carbon dioxide, and minerals into oxygen- and energy-rich organic molecules.
In many different ways, photosynthesis is advantageous to heterotrophs. They rely on the method for the creation of oxygen, which happens to be a result of photosynthesis.
Additionally, photosynthesis maintains the autotrophs on which heterotrophs rely for survival.
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Answer:
There is a great difference between light and scanning electron microscope. The source of illumination is light rays in light microscope while in scanning electron microscope electrons are the source of illumination.
The resolving and magnification power of scanning electron microscope is much greater than that of a light microscope. The magnifying power of a light microscope is 1000X and of electron microscope is 10,00,000X.
In light microscope image is seen through the eyepiece while in scanning electron microscope it is seen on a fluorescent screen. Even small specimens up to 0.1 micrometers can be seen by scanning electron microscope which is not possible to see by light microscope.
Answer: Arenite
Explanation:
Arenite can be defined as the sedimentary clastic rock.
It is of the sand grain size.
It also comprises of matrix.
It is a metamorphosed sediment.
Arenite is formed by the erosion of the turbiditic re-deposition of the sands. It belongs to silicatic limestones.