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Approximately 288 molecules of glucose are needed to produce 300 molecules of ATP in aerobic respiration. This is because one molecule of glucose yields around 36-38 molecules of ATP through glycolysis, Krebs cycle, and oxidative phosphorylation in the mitochondria.
Each glucose molecule contains 6 carbon atoms. Thus we need 18 molecules of CO2 to make 3 molecules of glucose.
Three molecules of glyceraldehyde-3-phosphate (G3P) are needed to synthesize one molecule of glucose in the Calvin cycle of photosynthesis.
6 carbon dioxides!
200, ***
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Approximately 288 molecules of glucose are needed to produce 300 molecules of ATP in aerobic respiration. This is because one molecule of glucose yields around 36-38 molecules of ATP through glycolysis, Krebs cycle, and oxidative phosphorylation in the mitochondria.
200
Two monosaccharides are needed to form one maltose molecule. Specifically, maltose is comprised of two glucose molecules joined together through a condensation reaction, which releases a molecule of water.
Each glucose molecule contains 6 carbon atoms. Thus we need 18 molecules of CO2 to make 3 molecules of glucose.
Three molecules of glyceraldehyde-3-phosphate (G3P) are needed to synthesize one molecule of glucose in the Calvin cycle of photosynthesis.
6 carbon dioxides!
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It takes 2 monosaccharide molecules to form a maltose molecule. Those are 2 glucose molecules. So 2 glucose molecules join together to make 1 maltose molecule.
In aerobic respiration, each molecule of glucose produces approximately 32 molecules of ATP. Therefore, to make 6000 molecules of ATP, you would need 6000/32 = 187.5 molecules of glucose. However, since you cannot have a fraction of a molecule, you would need 188 molecules of glucose to produce 6000 molecules of ATP in aerobic respiration.