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aerobic respiration basically its first step is called glycolysis and is further divded in two forms either aerobic which occur in presence of o2 and anaerobic in absences of oxygen Exactly so to answer the question the process the REQUIRES O2 is aerobic respiration like i said.
These two processes are not to be confused. Aerobic respiration is the process that occurs within the mitochondria of cells that results in the production of the energy-carrier molecule adenosine triphosphate (ATP). Breathing is the process of taking air into the lungs and expelling it from the lungs. It provides the blood with oxygen which is transported to individual cells for use in aerobic respiration.
Aerobic system loose concept. what exactly did you mean by this expression?
blood flow
None they are exactly the same.
Exactly four. Wouldn't it actually be six because the glucose molecule is set up as : C6H12O6? Yes, it's actually 6
Respiration isn't exactly carried out by one cell, its more of a system of cells working together to produce energy.The oxygen in the air is absorbed into the blood through alveoli in the lungs and likewise the carbon dioxide in the blood is diffused into the air in the lungs through the alveoli.The red blood cells carry the oxygen to the areas of the body where it is needed for energy production through aerobic respiration by bonding the oxygen to hemoglobin in the cell.Almost all cells in the body require oxygen to produce energy through the process of aerobic respiration, however the obvious example would be muscle cells as these generally do the most work at any given time.So I would say that the types of cells that carry out respiration are probably a mixture of red blood cells, alveoli and muscle cells.
Yes, exactly. The gases cause the dough to rise.
Not exactly, but kind of. Oxygen is generally known as the final hydrogen acceptor. NAD+ and FAD are generally known as electron acceptors because they transport electrons to the electron co-enzyme chain. After the electrons go through the co-enzyme chain they bond to protons forming hydrogen which bonds to oxygen to make water. If O2 does not do this then it is at least an intermediary ultimately conformed to CO2.
Yes, that is exactly what they are. Large protein machines for cellular metabolic activities.
Nothing. It's exactly the same thing.
They only function when the acidity or alkalinity of their environment is at a certain level.