Net 3 ATP or in other words, up to 3 ATP or less.
4 ATP molocules are made from 1 NADH and 1 FADH2 MO
60 minutes = 1 hour 5 hours = 5 x 60 = 300 minutes. If 3 radios are produced every minute then in 300 minutes, 3 x 300 = 900 radios are produced. 900 radios are produced in 5 hours.
These units do not have a direct relationship. Imagine kilowatt hours as the equivalent of work done, and megawatts (or kilowatts) as the equivalent of effort.To answer your question: 1 megawatt 'produces' 1000 kilowatts per hour.
24 hrs in a day. 24 divided by 3 equals 8. 8000 times 8 equals 64000.
The no. of entities that can be associated with another entity. For eg. 1-1, 1-many, many-1 and many-many
4 ATP molocules are made from 1 NADH and 1 FADH2 MO
One NADH molecule generates approximately 2.5 to 3 ATP through oxidative phosphorylation in the mitochondria.
20 ATP from 8 NADH 12 ATP from 12 FADH2 9 acetyl co-A --> 9 GTP, 67,5 ATP from 27 NADH, 13,5 ATP from 9 FADH2 minus 2 ATP to start beta-oxidation = 120 ATP
1 NADH typically results in the production of approximately 3 ATP molecules through oxidative phosphorylation in aerobic respiration.
10 NADH molecules are produced in total. 2 during glycolysis, 2 during link reaction (1 per pyruvate, 2 per glucose molecule), and 6 during the Krebs cycle. None during the electron transport chain.
The energy tally from one molecule of pyruvic acid is 4 NADH, 1 FADH₂ and 1 molecule of ATP.
During the process of aerobic respiration as many as 38 molecules of ATP are produced for every molecule of glucose that is utilized. Thus aerobic respiration process breaks down a single glucose molecule to yield 38 units of the energy storing ATP molecules. However, it takes 2 ATP to start the process. A net 36 are produced.
In my textbook it says that 1 molecule of ATP and 3 molecules of NADH are made from 1 molecule of pyruvate, via the citric acid cycle. However, since the question is asking for 1 molecule of GLUCOSE, the answer would be 2 ATP and 6 NADH since the oxidation of glucose produces TWO molecules of pyruvate, the amount of ATP and NADH would have to be doubled. I actually have this EXACT question on my exam... hmmm... do I know you by chance? o__O
Photosystem two produces O2, ATP, and NADP+
The most ATP are produced during the last stage of cellular respiration-- the electron transport chain which involves chemiosmosisThe theoretical yield for eukaryotes is 36 ATP per glucose moleculeOne ATP generated for each proton pump activatedMultiplied by 2=2 two pyruvates from glucose= 10 NADH = 2 glycolysis + 2 oxidation of pyruvate (2) + 6 from Krebs2 FADH22 ATP from glycolysis + 2 ATP from Krebs10 x3=30 ATP from NADH + 2x2=4 ATP from FADH2 + 4 ATP= 38 ATP producedAccurate for bacteria not eukaryotes= NADH in cytoplasm from glycolysis need 1 ATP/NADH molecule36 potential yield
The Krebs Cycle does not directly produce ATP (unless in bacteria, which produces 1 ATP instead of GTP).One cycle produces 3 NADH, 1 FADH2 and 1 GTP, which converts to 12 ATP.The Krebs Cycle produces 24 ATP per glucose molecule.
21.5 1 nadh x 2.5 2 fadh2 x 1.5 6 nadh x 2.5 2 gtp that;s 22.5 ATP. subtract 1 ATP equivalent for succinyl coa synthetase, and you get 21.5 ATP.