Is there any way someone could help me complete this page? Still not sure what to do for B and C. Thanks for the help!

The combustion of glucose to CO2 and water is a major source of energy in aerobic organisms following equation may be useful: oretaninats a reaction favored mainly by a large negative enthalpy change. The CcH 1206 + 602 (g) 6C02 (g) +6H2O (1) ミミ Ho =-2816 kJ/mole AS = 181 J/mole a. At 37 C, what is the value of AGo? ミ -2872.ll K1/rol In the overall reaction of aerobic metabolism of glucose, 38 moles of ATP are produced from ADP for every mole of glucose oxidized. Calculate the standard state free energy change for the overall reaction when glucose is coupled to the formation of ATP b. ATP + H2O ADP + Pi AG =-30.5 kJ/mole What is the overall efficiency of the process in terms of the percentage of the available free energy change captured in ATP? c.

Write the combustion reaction of glucose and the overall reaction for the metabolism of glucose in aerobic cells.

what conclusion do you draw by comparing the two reaction equations?

If the delta G not for ATP synthesis is 30.5 kj/mole under standard conditions, what is the delta G for ATP synthesis in aerobic cells where (ATP) = 8 x 10 -3 M, (ADP)= 6 x 10 -4 M and (pi)= 8 x 10 -3 M, at 25 degree Celcius and pH= 7? ADP + Pi == ATP + H2O

How many moles of ATP are synthesized by the oxidation of one mole of glucose in aerobic cells? How much energy is used by the synthesis of these ATP molecules in aerobic cells? Where does the energy come from?

Assume the delta G c for the combustion reaction of glucose is close to delta G c (galactose), estimate the efficiency of energy conservation of glucose in aerobic cells.

Please show me. Thank you in advance.

Given ΔG˚' for each of the following reactions: ATP->ADP + Pi ΔG˚'= -30.5 kj/mol Glucose-6-phosphate-> glucose + Pi ΔG˚'= -13.8 kj/mol Show how you would calculate the standard free energy change (ΔG˚') for the overall reaction: ATP + glucose -> glucose-6-phosphate+ ADP Then, How do you calculate the equilibrium constant K'eq for the overall reaction that is above at 25˚C?