It enters the f sublevel.
P Sublevel
d sublevel
f sublevel
In aerobic respiration, the final electron acceptor is (usually) oxygen. Sometimes it can be sulfur or nitrogen in the absence of oxygen (as in extreme environments) in extremophiles.
Water. Oxygen is the final electron acceptor and also picks up two hydrogens at the end of the electron transfer chain to form water. H2O
The final hydrogen acceptor in the electron transport chain is Oxygen. It comes from the ionization of water. Hope this helps. The final hydrogen acceptor in the electron transport chain is Oxygen. It comes from the ionization of water. Hope this helps.
O2 ADDED: Not O2, but one atom of oxygen.
Oxygen.
A final electron acceptor that is a stronger oxidizing agent than the last oxidizing agent in the electron transport chain is needed to remove low-energy electrons from the chain so that new high energy electrons can enter the chain to generate more ATPs. Without a final electron acceptor the electron transport chain will be backed up with low energy electrons and eventually no ATP can be generated since no new electron can enter the chain.
No, oxygen is the final electron acceptor of the electron transport chain.
zinc, cadmium, mercury, and copernicium. This is the group 12 family of elements, and is the final transition metal group
The final electron acceptor is oxygen.
The final electron acceptor in aerobic respiration is oxygen, which turns into H20.
Oxygen
oxygen
Aerobes use oxygen as the final electron acceptor in electron transport phosphorylation. The process that yields a final product called lactate fermentation.
In aerobic respiration, the final electron acceptor is (usually) oxygen. Sometimes it can be sulfur or nitrogen in the absence of oxygen (as in extreme environments) in extremophiles.
oxygen
No, chlamydia doesn't have a final electron acceptor. That is why it needs to live within the host cells
The final reduced species in the electron transport chain is water.