b) (This part is worth 0 points) The characteristics of the ATP hydrolysis react

Question

b) (This part is worth 0 points) The characteristics of the ATP hydrolysis reaction produce a negative , a positive AS, and thus, consequently, a negative G when T-37 °C Are the products more stable than the reactants due to the existence of more resonance structures? Increased resonance structures means increase freedom of electron motion and therefore increased entropy. Do same-charge repulsions cause the reactant to be at a higher energy level than the products?_ _Same charge repulsions reduce freedom of motion and therefore reduce entropy If you look closely, you can see in this reaction that one P-O bond is broken while one P-O bond is formed. Also, one O-H bond is broken while one O-H bond is formed. Thus, the contribution to the change in enthalpy from bond energies is probably zero or close to zero. Perhaps some IMFs break and form among solute and solvent molecules in this system which contribute to a change in enthalpy Do you think this is more of an "entropy driven" reaction or an "enthalpy driven" reaction?

Explanation / Answer

at first the reaction of ATP hydrolysis is a enthalpy driven process but at last

it becomes entropy driven.

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