In the chloroplast, the thylakoid membranes are the sites of the light reactions, whereas the Calvin cycle occurs in the stoma. The light reactions use solar energy to create ATP and NADPH, which supply chemical energy and reducing power, respectively, to the Calvin cycle. The Calvin cycle incorporates CO2 into organic molecules, which are converted to sugar.
No. ATP is produced by the first stage of photosynthesis, but is then used in the second stage to capture and reduce carbon dioxide. Therefore no ATP is released by photosynthesis.
No. Photosynthesis produce only glucose which during the process of respiration, particulary in animals produce ATP.,A form of energy
no
yes
Glycolysis forms a net profit of two ATP molecules. Two ATPs are required to begin this process, and the product is four ATP molecules.
There isn't any. The ATP produced in the light reaction are immediately used in the light independent reaction along with NADPH.
It produces a net gain of anywhere between 36 to 38 ATP Glycolysis produces a net gain of 2 ATP The Krebs Cycle produces a net gain of 2 ATP And the Electron Transport System (ETS) produces a net gain 34 ATP
The net gain of ATP from glycolysis is 2 molecules of ATP.
The efficiency of each stage of energy production can be determined by measuring the net amount of ATP produced. During the initial steps of respiration there is a net of 2 ATP, by the oxidative phase there is a net of 36 ATP produced.
2 net ATP molecules and 2 pyruvates.
Glycolysis forms a net profit of two ATP molecules. Two ATPs are required to begin this process, and the product is four ATP molecules.
There isn't any. The ATP produced in the light reaction are immediately used in the light independent reaction along with NADPH.
Feedstock is Glucose. Reaction is performed by yeast, specifically brewers yeast or sugar yeast. Product: ATP Energy, Carbon Dioxide, Water, NAD, alcohol
Glycolysis produces 4 ATP however it uses 2 ATP in the process so the net gain is only 2 ATP
No, net diffusion is a natural phenomenon that requires no ATP.
Glycolysis results in a net gain of 2ATP.
2 ATP
36 atp net gain. 38 gross gain, but 2 are invested at the beginning.
It produces a net gain of anywhere between 36 to 38 ATP Glycolysis produces a net gain of 2 ATP The Krebs Cycle produces a net gain of 2 ATP And the Electron Transport System (ETS) produces a net gain 34 ATP
Glycolysis takes 2 ATP and creates 4 ATP. The net ATP production of Glycolysis is 2ATP.
2 ATP Glycolysis uses 2 ATP molecules in the first half, called the Energy Investment Phase, and creates 4 ATP molecules in the second half, the Energy Payoff Phase. So -2 + 4 = a net gain of 2 ATP molecules.