32 molecules of ATP ( net gain ).
Explanation:2 molecules of ATP - in Glycolysis ( net gain ).
2 molecules of ATP - in Krebs Cycle.
28 molecules of ATP - in Electron Transport Chain.
- 1 NADH produces x2.5 ATP ( there are 10 NADH produced )
- 1 FADH2 produces x1.5 ATP ( there are 2 FADH2 produced )
Total: 2 + 2 + 2.5x10 + 1.5x2-> 4 + 28 = 32 molecules of ATP2 ATP are produced in anaerobic respiration(fermentation)
Approximately 30-32 molecules of ATP are produced by oxidative phosphorylation for each glucose molecule that enters glycolysis.
34 ATP molecules are produced by the end of the electron transport chain.
In a complete Krebs Cycle, 24 ATP are produced. Every glucose molecule produces 2 ATP, and there are 12 glucose molecules.
In glycolysis two net molecules of ATP are formed. Four ATP are formed but two are required in the initial activation of glucose.
2 ATP are produced in anaerobic respiration(fermentation)
The total ATP produced from one glucose is --------* (36/38) ATP
38 ATP molecules are produced from the break down of a gluecose molecule
Approximately 30-32 molecules of ATP are produced by oxidative phosphorylation for each glucose molecule that enters glycolysis.
34 ATP molecules are produced by the end of the electron transport chain.
30ish.
In anaerobic respiration, 2 ATP molecules are produced per glucose molecule through glycolysis.
Two, net.
26
38
In anaerobic respiration one glucose molecule produces a net gain of two ATP molecules (four ATP molecules are produced during glycolysis but two are required by enzymes used during the process). In aerobic respiration a molecule of glucose is much more profitable in that a net worth of 34 ATP molecules are generated (32 gross with two being required in the process).
In a complete Krebs Cycle, 24 ATP are produced. Every glucose molecule produces 2 ATP, and there are 12 glucose molecules.