Biochemistry
Biochemistry
6th Edition
ISBN: 9781305577206
Author: Reginald H. Garrett, Charles M. Grisham
Publisher: Cengage Learning
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Chapter 3, Problem 6P

Answers to all problems are at the end of this book. Detailed solutions are available in the Student Solutions Manual, Study Guide, and Problems Book.

Calculating and Keq for Coupled Reactions For the process

A B. Keq (AB) is 0.02 at 370C. For the process B C.

Keq (BC)=1000 at 370C.

  1. Determine Keq (AC), the equilibrium constant for the overall process A C, from Keq((AB) and (BC).

  • Determine standard-state free energy changes for all three processes, and use Δ G .
  • (AC) to determine Keq (AC). Make sure that ibis value agrees with that determined m part a of this problem.
  • Expert Solution
    Check Mark
    Interpretation Introduction

    (a)

    To determine:

    Keq(AC) for the overall process, from Keq(AB) and Keq(BC).

    Introduction:

      Keq=[Products][Reactants]

    Where Keqis equilibrium constant, square brackets represents concentration.

    Explanation of Solution

      Keq(AB)=[B][A]1Keq(BC)=[C][B]2

      Keq(AC)=[C][A]3

    When equation 1 multiplied by equation 2

      Keq(AB)×Keq(BC)=[B][A]×[C][B]=[C][A]

    Then we can substitute equation 3 here.

      Keq(AB)×Keq(BC)=Keq(AC)

      Keq(AC)=0.02×1000Keq(AC)=20

    Expert Solution
    Check Mark
    Interpretation Introduction

    (b)

    To determine:

    Standard-state free energy change for all three processes. Then using ΔG0(AC), Keq(AC) should be determined and should be compared with part (a).

    Introduction:

      ΔG0=RTlnKeq

    Where Keqis equilibrium constant, ΔG0is change in Gibbs free energy at standard conditions, R is Gas constant, T is temperature.

    Explanation of Solution

      ΔG0(AB)=RTlnKeq(AB)ΔG0(AB)=8.314×103 kJ/mol.K × 310 K × ln (0.02)ΔG0(AB)=10.1 kJ/mol

      ΔG0(BC)=RTlnKeq(BC)ΔG0(BC)=8.314×103 kJ/mol.K × 310 K × ln (1000)ΔG0(BC)=17.8 kJ/mol

      ΔG0(AC)=ΔG0(AB)+ΔG0(BC)ΔG0(AC)=(10.117.8) kJ/molΔG0(AC)=7.7 kJ/mol

      ΔG0(AC)=RTlnKeq(AC)7.7 kJ/mol=8.314×103 kJ/mol.K × 310 K × ln Keq(AC)ln Keq(AC)=7.7 kJ/mol8.314×103 kJ/mol.K × 310 Kln Keq(AC)=2.99Keq(AC)=e2.99Keq(AC)=19.8820

    Thus,

      ΔG0(AB)=10.1 kJ/mol

      ΔG0(BC)=17.8 kJ/mol

      ΔG0(AC)=7.7 kJ/mol

      Keq(AC)=19.8820

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