32.5 ATP molecules are produced when 10 NADH + H+ and 5 FADH2 are oxidized through ETS.
Explanation:
ATP is an energy-giving molecule. It provides energy in the form of phosphate to the body. ATP is produced by many processes such as glycolysis, Krebs cycle, and electron transport chain.
As NADH and FADH2 move through the electron transport chain, hydrogen ion moves from the matrix to the intermembrane. This produces ATP. One NADH molecule and one FADH2 molecule produce 2.5 and 1.5 molecules of ATP respectively.
1 NADH molecule = 2.5 ATP molecule
10 NADH molecule = 25 ATP molecule
and,
1 FADH2 molecule = 1.5 ATP molecule
5 FADH2 molecule = 7.5 ATP molecule
Thus, when 10 NADH + H+ and 5 FADH2 molecules are oxidized through ETS, 32.5 molecules of ATP are produced.
Answers & Comments
Answer:
i think it's (3*10) Nadh + (5*2)Fadh2 = 30 + 10 = 40 ATP molecules
Explanation:
Answer:
32.5 ATP molecules are produced when 10 NADH + H+ and 5 FADH2 are oxidized through ETS.
Explanation:
ATP is an energy-giving molecule. It provides energy in the form of phosphate to the body. ATP is produced by many processes such as glycolysis, Krebs cycle, and electron transport chain.
As NADH and FADH2 move through the electron transport chain, hydrogen ion moves from the matrix to the intermembrane. This produces ATP. One NADH molecule and one FADH2 molecule produce 2.5 and 1.5 molecules of ATP respectively.
1 NADH molecule = 2.5 ATP molecule
10 NADH molecule = 25 ATP molecule
and,
1 FADH2 molecule = 1.5 ATP molecule
5 FADH2 molecule = 7.5 ATP molecule
Thus, when 10 NADH + H+ and 5 FADH2 molecules are oxidized through ETS, 32.5 molecules of ATP are produced.