The maximum number of ATP per molecule of glucose is produced during the Kreb's Cycle of cellular respiration.
Electron Transport Chain. It produces 32 while the citric acid cycle (your teacher might call it the Krebs Cycle) produces 2 and glycolysis produces 2 (all those numbers are per ONE GLUCOSE MOLECULE) Electron Transport Chain. It produces 32 while the citric acid cycle (your teacher might call it the Krebs Cycle) produces 2 and glycolysis produces 2 (all those numbers are per ONE GLUCOSE MOLECULE)
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.
A molecule like glucose is most likely to cause osmosis in the body. Glucose is a small molecule that can easily cross cell membranes, causing changes in osmotic pressure and potentially affecting the movement of water into or out of cells.
Chemical energy is stored in form of bonds
Aerobic respiration produces the greatest amount of ATP per molecule of glucose oxidized. When a cell uses fatty acid for aerobic respiration it first hydrolyzes fats to glycerol and fatty acids.
The electron transport chain stage produces the most ATP when glucose is completely oxidized to carbon dioxide and water, generating up to 34 molecules of ATP per glucose molecule.
Aerobic respiration in eukaryotic cells, specifically during the electron transport chain in mitochondria, produces the most number of ATP molecules per glucose oxidized. This process can yield up to 36-38 ATP molecules per glucose molecule.
Electron Transport Chain. It produces 32 while the citric acid cycle (your teacher might call it the Krebs Cycle) produces 2 and glycolysis produces 2 (all those numbers are per ONE GLUCOSE MOLECULE) Electron Transport Chain. It produces 32 while the citric acid cycle (your teacher might call it the Krebs Cycle) produces 2 and glycolysis produces 2 (all those numbers are per ONE GLUCOSE MOLECULE)
Glucose
The breakdown of glucose produces the most ATP through aerobic respiration, which occurs in the presence of oxygen. This process involves glycolysis, the Krebs cycle, and the electron transport chain to generate a total of 36-38 ATP molecules per glucose molecule.
No, aerobic cellular respiration produces more energy than anaerobic respiration. Anaerobic respiration (like fermentation) produces just 2 ATP molecules per glucose molecule, while aerobic respiration produces up to 36-38 ATP molecules per glucose molecule.
In aerobic respiration, glucose is completely oxidized to produce carbon dioxide, water, and ATP. This process occurs in the presence of oxygen and is the most efficient way for cells to generate energy.
glucose
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.
Krebs cycle yields very little ATP energy. Some of the important products of this cycle are NADH, FADH2, and CO2. Most of the ATP energy will be synthesized in electron transport chain.
A semipermeable membrane is a large glucose molecule that requires facilitated diffusion but an oxygen molecule does not.
Cellulose is the most abundant organic polymer.It is made up of glucose.