5. The following chemical transformation takes place during the combustion of glucose. Inside our cells the same reaction is taking place, however, is broken down in multiple smaller steps. C6H12O6+O26CO2(g)+6H2O(g)(G=3000kJ/mol) A) The enthalpy change for this process is negative. Using this information and the reaction written above, explain the large negative G value using the third law of thermodynamics. B) The purpose of burning glucose inside our cells is to produce ATP from ADP and phosphate using the freed energy from the combustion of glucose according to the equation below: ADP+PhosphateATP(G=30k/mol) How ATP molecules are made inside our cells given the free energy change for this process is positive. Explain. C) As G for glucose burning is 3000kJ and G for forming ATP is +30kJ, a simple calculation can show, 1 mol of glucose should produce 100 ATP. However, only 38 ATP are made from a mol of glucose inside a cell. Explain the difference in the number of ATP generated