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.
60 minutes = 1 hour5 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.Read more: http://wiki.answers.com/How_many_Radios_produced_in_5_hours_rate_of_radios_in_3_per_minute#ixzz173FYF9bG
4 ATP molocules are made from 1 NADH and 1 FADH2 MO
2 ATP's come from one NADH
3 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.
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.
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
the out put of one revolution of the cycle is 2 c02, 3 NADH, 1 ATP, 1 FADH2
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.