<P> The description and typical textbook labeling anhydridic bonds as "high energy...bonds" can be very misleading to students . These bonds are in fact relatively weak . They do involve high energy electrons but the bonds themselves are quite easy to break . As noted below, energy is released by the hydrolysis of ATP when these weak bonds are broken--requiring a small input of energy, followed by the formation of new bonds and the release of a larger amount of energy as the total energy of the system is lowered and becomes more stable . </P> <P> Hydrolysis of the phosphate groups in ATP is especially exergonic, because the resulting orthophosphate group is greatly stabilized by multiple resonance structures, making the products (ADP and P) much lower in energy than the reactant (ATP). The high negative charge density associated with the three adjacent phosphate units of ATP also destabilizes the molecule, making it higher in energy . Hydrolysis relieves some of these electrostatic repulsions, liberating useful energy in the process by causing conformational changes in enzyme structure . </P> <P> Hydrolysis of the terminal phosphoanhydridic bond is a highly exergonic process, releasing 30.5 kJ mol of energy . This reaction can then be coupled with thermodynamically unfavorable reactions to give an overall negative (spontaneous) change in Gibbs free energy (ΔG) for the reaction sequence . The actual value of ΔG for ATP hydrolysis varies, primarily depending on Mg concentration, and under normal physiologic conditions is actually closer to - 50 kJ mol . </P> <P> In humans, approximately 60 percent of the energy released from the hydrolysis of one mole of ATP produces metabolic heat rather than fuel the actual reactions taking place . Due to the acid - base properties of ATP, ADP, and inorganic phosphate, the hydrolysis of ATP has the effect of lowering the pH of the reaction medium . Under certain conditions, high levels of ATP hydrolysis can contribute to lactic acidosis . </P>

What is the free energy change of the hydrolysis of atp to adp
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