In aerobic respiration, ATP is produced through the process of oxidative phosphorylation in the mitochondria. During this process, electrons from glucose are passed through the electron transport chain, creating a proton gradient that drives ATP synthesis by ATP synthase. This process is highly efficient and generates a large amount of ATP compared to anaerobic respiration.
A net total of 36-38 ATPs are released during aerobic respiration, while only 2 ATPs are released during anaerobic respiration.
In aerobic respiration 38 ATPs are produced. In anerobic respiration only 2 are produced
36 ATPs are produced.CO2 and H2O also given out.
From one saturated 16-carbon fatty acid, beta-oxidation produces 7 NADH and 7 FADH2 molecules. Therefore, 7 NADH x 2.5 ATPs/NADH = 17.5 ATPs and 7 FADH2 x 1.5 ATPs/FADH2 = 10.5 ATPs, resulting in a total of 28 ATPs generated.
It gets produced form glucose aerobic metabolism that consists of 4 steps: 1.glycolisis = 2 ATPs +2 NADH 2.pyruvate oxidative decarboxilation = 1 NADH *2 (because we have 2 pyruvates from the glycolisis) 3. Krebs cycle = (3NADH + 1FADH + 1ATP) * 2 4.Cellular respiration cycle - process where all the NADH and FADH are converted to ATPs. Each NADH = 3ATP, but FADH=2ATP. Thus we get: 1. 8 ATPs 2. 6 ATPs (3*2) 3. 24 ATPs (12*2) --------------------- 38 ATPs
36
A net total of 36-38 ATPs are released during aerobic respiration, while only 2 ATPs are released during anaerobic respiration.
In aerobic respiration 38 ATPs are produced. In anerobic respiration only 2 are produced
36 ATPs are produced.CO2 and H2O also given out.
Around 36-38 ATP molecules are produced through complete aerobic respiration.
From one saturated 16-carbon fatty acid, beta-oxidation produces 7 NADH and 7 FADH2 molecules. Therefore, 7 NADH x 2.5 ATPs/NADH = 17.5 ATPs and 7 FADH2 x 1.5 ATPs/FADH2 = 10.5 ATPs, resulting in a total of 28 ATPs generated.
It gets produced form glucose aerobic metabolism that consists of 4 steps: 1.glycolisis = 2 ATPs +2 NADH 2.pyruvate oxidative decarboxilation = 1 NADH *2 (because we have 2 pyruvates from the glycolisis) 3. Krebs cycle = (3NADH + 1FADH + 1ATP) * 2 4.Cellular respiration cycle - process where all the NADH and FADH are converted to ATPs. Each NADH = 3ATP, but FADH=2ATP. Thus we get: 1. 8 ATPs 2. 6 ATPs (3*2) 3. 24 ATPs (12*2) --------------------- 38 ATPs
Your question is not clear enough to answer. However, I can answer that ATP Synthesis produce most of the ATPs in the electric transport chain of the inner mitochondria (or aka. matrix). There are other ways to produce ATPs (your cells, of course) but the mitochondria, or the "power house," produces the most of the ATPs from ADP. Overall, the process is called the cellular respiration.
Glycolysis is a 10 step enzymatically catalyzed reaction which splits up a glucose molecule into two molecules of pyruvate. The process of glycolysis can occur in absence of oxygen. A net yield of 2 ATP is obtained at the end of gylcolysis for every molecule of glucose oxidized.
2 ATPs
It takes place in the cytoplasm.It yields two ATPS,two NADH and two pyruvates
It really depends on if its aerobic(with oxygen) or anaerobic(without oxygen) respiration. In aerobic respiration carbon dioxide, water and energy are made In anaerobic respiration lactic acid and energy are made.