4 ATP molocules are made from 1 NADH and 1 FADH2 MO
Net 3 ATP or in other words, up to 3 ATP or less.
Around 10^21 per second, when the amount made per day is the average, 75kg.
200
ATP plus H2O release energy (endergonic reaction) and P. Now, this P plus ADP becomes ATP (exergonic reaction). It's a cyclic process. It starts all over again at ATP plus H2O..
0.25%
3 ATP per NADH and 2 ATP per FADH2 through oxidative phosphyrolation in mitochondria
CO2, NADH/H+, FADH2, ATP.
Every glucose molecule produces 2 ATP, 8 NADH, and 2 FADH2.
FADH2 allows for the formation of 2 molecules of ATP during the Kreb's cycle.
Glycolysis
The answer is NADH and FADH2. Both of these are electron carriers.
Fadh2 ..2 Nadh...3
NADH. In oxidative phosphorylation, for every NADH, around 2.5 ATP molecules are made, and for every FADH2 about 1.5 ATP molecules are made.
Two ATP molecules are produced from one FADH2 going through the electron transport chain. For every NADH, three ATP molecules are produced.
NADH = 2.5 - 3.3 ATP FADH2 = 1.5 - 2 ATP Succinyl CoA to Oxaloacetate makes 1 ATP, 1 FADH2, and NADH But we have 3 Succinyl CoA so therefore 3 ATP, 3 FADH2, and 3 NADH are made. The 3 ATP because we are including substrate-level phosphorylation The 3 FADH2 makes 4.5 to 6 ATP The 3 NADH makes 7.5 to 9.9 ATP The Range for the ATP molecules made are 15 - 18.9 ATP (15 - 18 ATP because u cannot have 9/10 of an ATP) In my opinion, most generally round the NADH to 3 ATP, and so my estimate would be 18 ATP are created, but anywhere within the 15 - 18.9 range is accurate.
FADH2 and NADHIt gives four products.They are ATP,CO@, FADH2 and NADH
ATP, NADH, FADH2, and CO2