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What are the maximum number of ATP molecules that result from complete aerobic respiration of one glucose molecule?
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
What is the maximum number of ATP produced from the complete oxidation of 3 molecules of glucose?
The complete oxidation of one molecule of glucose produces 36-38 ATP. Therefore, the complete oxidation of 3 molecules of glucose would produce 108-114 ATP in total.
What is the maximum number of ATP molecules that can be made from a glucose molecule during the process of cellular respiration?
The maximum number of ATP molecules that can be produced from a single glucose molecule during cellular respiration is 36-38 ATP. This includes ATP generated during glycolysis, the Krebs cycle, and oxidative phosphorylation in the mitochondria. The exact number can vary slightly depending on factors such as the efficiency of ATP production in the electron transport chain.
What produces the most ATP per molecule of glucose oxidized?
The maximum number of ATP per molecule of glucose is produced during the Kreb's Cycle of cellular respiration.
The greatest number of ATP molecules is produced in?
The greatest number of ATP molecules is produced in the electron transport chain during cellular respiration. This process occurs in the inner mitochondrial membrane and results in the production of up to 34 ATP molecules per glucose molecule.
What are the maximum number of ATP molecules that result from complete aerobic respiration of one glucose molecule?
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
What is the maximum number of ATP produced from the complete oxidation of 3 molecules of glucose?
The complete oxidation of one molecule of glucose produces 36-38 ATP. Therefore, the complete oxidation of 3 molecules of glucose would produce 108-114 ATP in total.
What is the maximum amount of ATP produced from a single molecule of glucose that is fermented?
Theoretically NADH produces a maximum of 3 ATPs and FADH2 produces a maximum of 2 ATPs. However in reality the numbers are closer to 2.5 and 1.5 respectively due to protons leaking across the inner membrane.
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?
What is the maximum number of ATP molecules that can be made from a glucose molecule during the process of cellular respiration?
The maximum number of ATP molecules that can be produced from a single glucose molecule during cellular respiration is 36-38 ATP. This includes ATP generated during glycolysis, the Krebs cycle, and oxidative phosphorylation in the mitochondria. The exact number can vary slightly depending on factors such as the efficiency of ATP production in the electron transport chain.
What is the maximum effiency of aerobic repiration?
36-38 molecules of adenosine triphosphate (ATP) are produced from one molecule of glucose during aerobic respiration. 32-34 molecules of ATP are produced from the electron transport chain. Glycolysis produces 2 molecules of ATP. The Krebs cycle produces 2 molecules of ATP.
What produces the most ATP per molecule of glucose oxidized?
The maximum number of ATP per molecule of glucose is produced during the Kreb's Cycle of cellular respiration.
The greatest number of ATP molecules is produced in?
The greatest number of ATP molecules is produced in the electron transport chain during cellular respiration. This process occurs in the inner mitochondrial membrane and results in the production of up to 34 ATP molecules per glucose molecule.
How do you get 12 waters aerobic respiration?
In aerobic respiration, one molecule of glucose can produce up to 36 molecules of ATP through the process of glycolysis, the citric acid cycle, and oxidative phosphorylation. Each NADH molecule produced in glycolysis and the citric acid cycle can generate up to 3 molecules of ATP, while each FADH2 molecule can generate up to 2 molecules of ATP in the electron transport chain. Overall, the complete oxidation of one molecule of glucose generates a maximum of 12 water molecules as a byproduct.
During metabolism the complete breakdown of one molecule of glucose results in a maximum yield of 38 molecules of A) ADP. B) ATP. C) GTP. D) NADH. Submit Hint Matter and Energy Transformations (SC.912?
During metabolism, the complete breakdown of one molecule of glucose through cellular respiration can yield a maximum of 38 molecules of ATP. This process occurs through glycolysis, the Krebs cycle, and the electron transport chain. While other molecules like NADH are also produced during these processes, the primary energy currency generated is ATP. Therefore, the correct answer is B) ATP.
Fermentation is a complex chemical process of wine making in which glucose is converted into ethanol and carbon dioxide statrting with 500 4g of glucose what is the maximum amount of ethanol in grams?
C6H12O6 (180.16 g/ mol) ---> 2C2H5OH (46.07 g/mol) + 2 CO2 600.4 g glucose @ 92.14 g ethanol / 180.16 g glucose = 307.06 grams of ethanol can be produced 307.06 grams of ethanol @ 0.789g/ml = 389.2 millilitres ========= your answers: 307 grams of ethanol & 0.389 litres of ethanol
Explain why most eukaryotic cells produce fewer than 38 the maximum number possible ATP molecules for every glucose molecule that is oxidized by cellular respiration?
Most eukaryotic cells produce fewer than 38 ATP molecules per glucose molecule due to inefficiencies and energy requirements of cellular processes like the transport of molecules across membranes and maintenance of cellular homeostasis. Additionally, not all energy from glucose oxidation is used solely for ATP production; some is lost as heat. The theoretical maximum of 38 ATP assumes ideal conditions, which are rarely achieved in cellular respiration.
