ABB a) 0.999 mM of compound B and 0.001 mM of compound A at 25 ºC. Calculate the equilibrium constant Keq', and the standard free energy change, AGº', for the reaction. The value of the gas constant is 1.98 Starting with a 1 mM solution of compound A, the equilibrium mixture was found to contain cal-mol-1-K-1 or 8.314 J-mol-1-K-1. b) Explain briefly, if the velocity by which the equilibrium is attained will be dependent on the magnitude of AGº. c) different from those listed above if a competitive inhibitor of the enzyme is present during the enzyme catalysed reaction. Explain briefly, if the equilibrium concentrations of compounds A and B will be expected to be

need only part C in detail 

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need only part C

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The isomerization of the compounds A and B is catalyzed by an enzyme: ABB a) 0.999 mM of compound B and 0.001 mM of compound A at 25 °C. Calculate the equilibrium constant Keq', and the standard free energy change, AGº", for the reaction. The value of the gas constant is 1.987 Starting with a 1 mM solution of compound A, the equilibrium mixture was found to contain cal-mol-1-K-1 or 8.314 J-mol-1-K-1. b) Explain briefly, if the velocity by which the equilibrium is attained will be dependent on the magnitude of AG". c) different from those listed above if a competitive inhibitor of the enzyme is present during the enzyme catalysed reaction. Explain briefly, if the equilibrium concentrations of compounds A and B will be expected to be