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ATP
Photosynthesis is the process by which organisms convert light energy into chemical energy. The outcome of photosynthesis is that chemical energy is produced in order to fuel the organisms living activities. In most cases, oxygen is also produced as a waste product.
No, not in itself. Weather is the result of energy. The energy involved comes from the sun. As there are temperature differences, there are differences in pressure, and wind is produced. Heat and wind are energy, and both come from the energy of the sun and the rotation of the earth. Cold is the absence of sun, wind indirectly comes from the sun, and rain is the result of evaporation and condensation which also involve the sun.
Water energy is produced when you use the movement energy of running water to power a waterwheel. That waterwheel then powers a generator which makes electrical energy. Then the generator transfers that energy to the power station.
Many molecules can be synthesized using that energy. Most important one is ATP
the calvin cycle uses 6 molecules of carbon dioxide to produce a singe 6carbon sugar molecule
NO. Almost all electrical energy is produced as a result of burning fossil fuels.
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ATP
the pollutants caused are carbon dioxide and smoke clouds
When you rub two things together, like your hands, thermal energy is produced. This is a result of the friction.
The Calvin Cycle uses ATP and NADPH from light-dependent reactions to produce high-energy sugars.
They are utilized later. Used in respiration mainly
Cells produce energy through the chloroplasts, which originated from light. There are two reactions: one in the thykaloid, which is known as the light reaction, and one in the stroma, which is called the Calvin Cycle. the Calvin Cycle is known as the sugar factory.
Physical activity
Heavier atoms which could not be formed as a result of fusion are produced as the result of a star that has run out of fuel exploding. It essentially forces atoms which do not release energy to fuse together.
ATP is used in the Calvin cycle in it's phosphorylation role; transferring phosphate groups to Calvin cycle intermediates that then go through the conformational rearrangements which result in the sugar product, glyceraldehyde-3-phosphate that leaves the cycle and the reconstitution of oxaloacete, beginning the cycle again.