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Glucose is converted into pyruvate.It is common to aerobic and non aerobic erspiration.Glucose is splited and converted into pyruvate..It is common to aerobic and non aerobic respiration.
only in Aerobic respiration
NADH, and FADH2
You would need 50 molecules of glucose to net 1800 ATP molecules in aerobic respiration. This number can be found by dividing 36 net ATP created by glucose with 1800.
Aerobic respiration releases much more energy than anaerobic respiration. Aerobic respiration can result in as many as 38 molecules of ATP from one molecule of glucose, compared to a net gain of 2 molecules of ATP in anaerobic respiration.
Glucose is converted into pyruvate.It is common to aerobic and non aerobic erspiration.Glucose is splited and converted into pyruvate..It is common to aerobic and non aerobic respiration.
only in Aerobic respiration
Gills split water molecules into hydrogen and oxygen, used for aerobic cellular respiration.
NADH, and FADH2
The end products of aerobic respiration in plants are:- 1) 6 molecules of Carbon Dioxide 2) 6 molecules of Water, and 3)Energy.
36 - 38 ATP from aerobic cellular respiration.
You would need 50 molecules of glucose to net 1800 ATP molecules in aerobic respiration. This number can be found by dividing 36 net ATP created by glucose with 1800.
You would need 50 molecules of glucose to net 1800 ATP molecules in aerobic respiration. This number can be found by dividing 36 net ATP created by glucose with 1800.
Aerobic respiration releases much more energy than anaerobic respiration. Aerobic respiration can result in as many as 38 molecules of ATP from one molecule of glucose, compared to a net gain of 2 molecules of ATP in anaerobic respiration.
36 molecules when using aerobic respiration, but only 2 when using anaerobic.
72 molecules of ATP are produced .
If the cell is performing anaerobic respiration, this is called fermentation. Fermentation produces a net gain of two ATP molecules and uses two molecules of glucose (food). Aerobic respiration known as cellular respiration produces a net gain of 38 ATP molecules.