13.3 Autocatalysis and Oscillatory Chemical Reactions 585
to averages over microstates. From our discussion of statistical entropy in Chapter 4,
it is obvious that information is being lost in an irreversible process. Although much
progress has been made in understanding how to average over microstates to represent
a nonequilibrium macrostate, the question of how this information is lost has not yet
been answered.^18
PROBLEMS
Section 13.2: Competing Mechanisms and the Principle
of Detailed Balance
13.20A hypothetical reaction
AX+B+A++BX
can proceed through either of two independent
mechanisms:
Elementary mechanism:
(1) AX+B+A++BX
Two-step mechanism:
(2) AXA++X−
(3) B++X−BX
Given the values at some fixed temperature,
k 2 1. 0 × 106 s−^1
k′ 2 2. 4 × 108 L mol−^1 s−^1
k 3 3. 8 × 104 L mol−^1 s−^1
k′ 3 1. 4 × 101 s−^1
k′ 1 6. 7 × 102 s−^1
find the value of the equilibrium constant and the value of
k 1 at this temperature.
13.21Insert a reverse reaction in step 3 of Problem 12.36. Write
the expression for the equilibrium constant in terms of the
rate constants. Write the relation between the rate
constants for the chain mechanism and the other
mechanisms, using the principle of detailed
balance.
13.22Insert a reverse reaction in the second step of the mecha-
nism of Eq. (13.1-16), assuming a single product,P,
and assuming that the reverse reaction in step 2 is
elementary.
a.Write an expression for the equilibrium constant of the
reaction in the absence of the catalyst.
b.Write an expression for the equilibrium constant in
terms of the rate constants in the assumed mechanism.
Express the rate constant for the reverse reaction of
step 2 in terms of the other rate constants and the
equilibrium constant, using the principle of detailed
balance.
13.23Insert reverse reactions into steps 2 and 3 in the
mechanism of Problem 13.14. Write an expression for the
equilibrium constant for the reaction in terms of the rate
constants of the three steps. Expressk′ 3 in terms of the
equilibrium constant for the uncatalyzed reaction and the
other rate constants.
13.3 Autocatalysis and Oscillatory Chemical
Reactions
Autocatalysis
If a product of a reaction catalyzes that reaction, the reaction is said to exhibitauto-
catalysis. The simplest hypothetical autocatalytic reaction
A→F (13.3-1)
(^18) Many years ago while at a meeting, the author approached George Uhlenbeck, a prominent theoretical
physicist, and asked him to comment on this question. He simply stated “Irreversibility is just a human
illusion.” Who knows if his opinion is correct?