Combustion of glucose (CHO) is the main source of energy for animal cells: CHO (s) + 60₂(e) - 600₂(e) + 6H₂0 (0) AG, (37 °C) -2872. kJ This energy is generally stored as ATP (adenosine triphosphate) molecules, which can release it when convenient by hydrolysis (water-assisted decomposition") into ADP (adenosine diphosphate) molecules and a phosphate anion, often given the symbol P, in biochemistry: ATP (aq) → ADP (ag) +P (aq) AG," --35 to 70 kJ The actual amount of free energy released by the hydrolysis of ATP varies, depending on the exact conditions inside the cell. Suppose under certain conditions hydrolysis of ATP actually releases -51.5 kJ/mol, Calculate the maximum number of ATPs that could be created from ADPs and P, by the combustion of a molecule of glucose. Your answer must be a whole number. 0

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Combustion of glucose (C₂H2O) is the main source of energy for animal cells: C₂H₂O(s) + 60,(e) 6CO₂(g) + 6H₂0 (1) AG, (37 °C)--2872. kJ This energy is generally stored as ATP (adenosine triphosphate) molecules, which can release it when convenient by hydrolysis (water-assisted decomposition") into ADP (adenosine diphosphate) molecules and a phosphate anion, often given the symbol P, in biochemistry: ATP(ag) ADP (aq) + P (aq) AG-35 to 70 kJ The actual amount of free energy released by the hydrolysis of ATP varies, depending on the exact conditions inside the cell. Suppose under certain conditions hydrolysis of ATP actually releases -51.5 kJ/mol, Calculate the maximum number of ATPs that could be created from ADPs and P, by the combustion of a molecule of glucose. Your answer must be a whole number. 0 F 12 E