Glucose = C6 h12 o6
Aerobic respiration is more efficient than fermentation in terms of obtaining energy from glucose because it produces a much higher yield of ATP molecules per glucose molecule. Aerobic respiration produces up to 38 ATP molecules per glucose molecule, while fermentation produces only 2 ATP molecules per glucose molecule.
A process that involves the usage of ATP and glucose is glycolysis, which produces 2 pyruvates, 2 net ATP and 2 NADH molecules.
Anaerobic respiration produces approximately 2 ATP per molecule of glucose. It actually produced four ATP molecules, but two are needed during the respiration process, giving a net of two ATP molecules.
In glycolysis, one glucose molecule produces a net yield of two ATP molecules at the end of the process.
2 ATP are produced in anaerobic respiration(fermentation)
Glycolysis is the breakdown of glucose that produces a net result of two ATP. This process occurs in the cytoplasm of cells and involves a series of enzymatic reactions that convert glucose into pyruvate.
In a complete Krebs Cycle, 24 ATP are produced. Every glucose molecule produces 2 ATP, and there are 12 glucose molecules.
Glycolysis forms 2 ATP. The Krebs cycle, or the citric acid cycle, also produces 2 ATP. The electron transport chain produces 34 ATP.
Yes, aerobic respiration produces significantly more ATP than anaerobic respiration. Aerobic respiration produces up to 38 molecules of ATP per molecule of glucose, while anaerobic respiration produces only 2 molecules of ATP per molecule of glucose.
Mitochondria use the sugar glucose to change ADP into ATP. ATP is what produces energy the cell needs.
Mitochondria use the sugar glucose to change ADP into ATP. ATP is what produces energy the cell needs.
Yes, cellular respiration produces 36-38 ATP per glucose molecule.