First you have to know that respiration happens in 3 steps: glycolysis, Krebs cycle, and oxidative phosphorylation.
Glycolysis, through substrate-level phosphorylation, yields 4 ATP, but it uses up 2 ATP, giving a "profit" of 2 ATP.
The Krebs cycle also yields 2 ATP through substrate-level phosphorylation.
Oxidative phosphorylation occurs through the electron transport chain. This process yields about 34 ATP.
This gives us a total of about 38.
The total CAN be 36 depending on how much ATP is used by the shuttles that transport electrons from NADH in the cytosol. (The shuttle can use up 0-2 ATP)
Because they are the end products. They are called the energy currency of the cell and act as batteries to produce power for the cells' activities.
72 molecules of ATP are produced .
You would need 50 molecules of glucose to net 1800 ATP molecules in aerobic respiration. This number can be found by dividing 36 net ATP created by glucose with 1800.
Aerobic respiration releases much more energy than anaerobic respiration. Aerobic respiration can result in as many as 38 molecules of ATP from one molecule of glucose, compared to a net gain of 2 molecules of ATP in anaerobic respiration.
36 molecules when using aerobic respiration, but only 2 when using anaerobic.
Per molecule of glucose aerobic respiration generates a total of 36ATP molecules while anarobic generates 2 ATP molecules?
36 - 38 ATP from aerobic cellular respiration.
72 molecules of ATP are produced .
You would need 50 molecules of glucose to net 1800 ATP molecules in aerobic respiration. This number can be found by dividing 36 net ATP created by glucose with 1800.
You would need 50 molecules of glucose to net 1800 ATP molecules in aerobic respiration. This number can be found by dividing 36 net ATP created by glucose with 1800.
Aerobic respiration releases much more energy than anaerobic respiration. Aerobic respiration can result in as many as 38 molecules of ATP from one molecule of glucose, compared to a net gain of 2 molecules of ATP in anaerobic respiration.
36 molecules when using aerobic respiration, but only 2 when using anaerobic.
Per molecule of glucose aerobic respiration generates a total of 36ATP molecules while anarobic generates 2 ATP molecules?
The ATP utilized in transpiration is derived from the respiration of organic molecules. This is what is commonly known as aerobic respiration.
Electron transport chains
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.
200
36-38 for aerobic respiration 2 in fermentation sooo.. yes