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Electrons from what replaces the electrons from photosystem 2 during noncyclic electron flow?
water
What is electron movement referred to as?
Electron movement is referred to as electric current. When electrons flow through a conductor, such as a wire, they carry electrical energy from one point to another. The direction of current flow is opposite to the direction of electron movement.
Do the energized electrons at the primary electron acceptor flow to the reaction center?
Yes, energized electrons at the primary electron acceptor flow to the reaction center of photosystem I or II in the process of photosynthesis. This movement of electrons is essential for the conversion of light energy into chemical energy in the form of ATP and NADPH.
When an electron is displaced in a semiconductor the hole thats left behind is?
a. attracted to the negative terminal of the voltage source as an electrons leave its orbit it leave a hole which is promptly filled by another electron. so as electron flow one way the holes flow the opposite direction. in electronics current flow from positive charge to a less positive chargeclassified as a "hole". Although it doesn't really *exist, it is thought to have the same charge as an electron but opposite polarity.
What energy is the flow of electrons?
current :))))
What replaces the electrons from photosystem 2 during noncyclic electron flow?
water
Electrons from what replace the electrons from photosystem 2 during noncyclic electron flow?
water
Both cyclic and noncyclic electron flow generate the high-energy ATP molecule?
true
Electrons from what replaces the electrons from photosystem 2 during noncyclic electron flow?
water
Can Calvin cycle cyclic electron flow noncyclic electron flow or cellular respiration occur if the plant was placed in darkness for days?
as soon as the sun hits them they get all hiper and crazy.
Noncyclic electron flow results in the generation of what?
Noncyclic electron flow results in the generation of ATP and NADPH. In this process, electrons are passed through the photosystems in the thylakoid membrane and ultimately drive the creation of these essential energy molecules.
The final electron acceptor in the noncyclic pathways of ATP formation is?
The final electron acceptor in the noncyclic pathways of ATP formation is oxygen. Oxygen is necessary to receive electrons at the end of the electron transport chain in aerobic respiration, forming water as a byproduct.
What are the differences between cyclic and noncyclic electron flow?
in non-cyclic the electrons do not return the source and the cyclic the electrons come back to the source. Mostly the non-cyclic process occurs to produce ATP AND NADH which will be used by the Calvin cycle to produce the carbohydrate but some times there occurs a cyclic process to produce ATP to cope up with Calvin cycle as it requires more ATP than the NADH In addition to the above, cyclic electron flow could operate independent of photosystem II. The production of oxygen and NADPH take place in non-cyclic electron flow and the system could switch to cyclic flow upon accumulation of oxygen and NADPH
What different end products are produced in cyclic versus noncyclic photosynthesis?
In cyclic photosynthesis, the end product is ATP (adenosine triphosphate) only. In noncyclic photosynthesis, the end products are ATP, NADPH, and oxygen.
The electrons that are passed to NADPH during noncyclic photophosphorylation were obtained from?
The electrons that are passed to NADPH during noncyclic photophosphorylation were obtained from water. The ultimate electron and hydrogen acceptor in the noncyclic pathway is NADPH+.
Electrons form replace the electrons from photosystem 2 during noncyclic electric flow?
water
An important electron and hydrogen acceptor in noncyclic pathways of ATP formation is?
Oxygen is an important electron and hydrogen acceptor in noncyclic pathways of ATP formation, such as oxidative phosphorylation in aerobic respiration. This process involves the transfer of electrons from NADH and FADH2 to oxygen, leading to the production of ATP.
