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What are the maximum number of ATP molecules that result from complete aerobic respiration of one glucose molecule?
Wiki User
∙ 12y ago
2. (1)glucose --> (2)Carbon dioxide + (2) Ethanol + (2) ATP
aerobic on the other hand produces 38 Atp per glucose molecule.
(1) glucose + (6) oxygen---> (6) oxygen + (1) water + (38) atp
Wiki User
∙ 11y ago
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How many molecules of ATP are produced from the complete aerobic breakdown of one molecule of glucose?
36 molecules when using aerobic respiration, but only 2 when using anaerobic
What molecule is needed for aerobic respiration but not for fermentation?
what molecule is needed for aerobic respiration but not for fermentation
Does aerobic respiration form the greatest number of ATP molecules?
Yes. Anaerobic respiration yields a net gain of 2 ATP per molecule of glucose, while aerobic respiration yields 36 -38 ATP per molecule of glucose.
How many molecules of ATP are made from aerobic cellular respiration?
Biology textbooks often state that 38 ATP molecules can be made per oxidized glucose molecule during cellular respiration (2 from glycolysis, 2 from the Krebs cycle, and about 34 from the electron transport system).
The portion of aerobic respiration that produces the most ATP per molecule of glucose is?
Cellular RespirationSource: Holt Biology by Johnson Raven* Aerobic cellular respiration. Anaerobic cellular respiration yields a net gain of 2 ATP molecules for each glucose molecule broken down. Aerobic respiration yields a variable number, but always more than ten times as many ATP molecules.
How many molecules of ATP are produced from the complete aerobic breakdown of one molecule of glucose?
36 molecules when using aerobic respiration, but only 2 when using anaerobic
Per molecule of glucose aerobic respiration generates a total of how many ATP molecules while anaerobic generates how many ATP molecules?
Per molecule of glucose aerobic respiration generates a total of 36ATP molecules while anarobic generates 2 ATP molecules?
If 1glucose molecule is completely broken down by aerobic cellular respiration how many ATP molecuels can be formed?
One molecule of glucose can produce 36 molecules of ATP from aerobic cellular respiration.
How many molecules of carbon dioxide result from the breakdown of one molecule of glucose in aerobic repiration?
Six molecules of carbon dioxide result from the breakdown of one molecule of glucose in aerobic respiration. C6H12O6 + 6O2 --> 6H2O + 6CO2
What molecule is needed for aerobic respiration but not for fermentation?
what molecule is needed for aerobic respiration but not for fermentation
Does aerobic respiration form the greatest number of ATP molecules?
Yes. Anaerobic respiration yields a net gain of 2 ATP per molecule of glucose, while aerobic respiration yields 36 -38 ATP per molecule of glucose.
How many molecules of ATP are made from aerobic cellular respiration?
Biology textbooks often state that 38 ATP molecules can be made per oxidized glucose molecule during cellular respiration (2 from glycolysis, 2 from the Krebs cycle, and about 34 from the electron transport system).
One molecule of glucose makes 30 molecules of ATP. how many molecules of glucose are needed to make 6000 molecules of ATP in aerobic respiration?
200
Complete aerobic respiration yields a total of how many ATP molecules?
36 to 38 ATPs
What molecule is used during aerobic respiration?
Cellular respiration can be aerobic and anaerobic. Aerobic respiration requires oxygen, anaerobic respiration does not need oxygen.
How many ATP molecules must be used as starter energy for aerobic respiration?
One molecule of adenine joined to one molecule of ribose. (two atp molecules are formed - adenosine)
The Krebs cycle and electron transport chain can produce a total of ATP?
Aerobic respiration (using oxygen) is a high energy yielding process. During the process of aerobic respiration as many as 38 molecules of ATP are produced for every molecule of glucose that is utilized. Thus aerobic respiration process breaks down a single glucose molecule to yield 38 units of the energy storing ATP molecules.
