15 · DYNAMIC CHEMICAL EQUILIBRIAKc(T)is practically important because it does not depend upon the concentrations of
the reactants at the start of the reaction, and for a named reaction varies only with
temperature of the equilibrium mixture. Remember,The value of an equilibrium constant for a particular reaction changes only
with temperature.The equilibrium constants of reactions involving gases may also be expressed in
terms of the partial pressures (in atm) of the reactants and products. The equilib-
rium constant is then symbolized Kp(T). For example, for reaction (15.5),(pSO 3 )^2
Kp(T)
(pSO 2 )^2 (pO 2 )^23.0 104 atm^1 at 700 K
(15.6)(The conversion of Kc(T)toKp(T)is described in the website, Appendix 15.)
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Reactions that go to completion
Study the equations
CO(g)H 2 (g)\===\H 2 O(g)C(s)
and
NaOH(aq)HCl(aq) H 2 O(l)NaCl(aq)
Which of the following statements are correct?
(a)If we started with 0.1 mol of H 2 and excess CO, we would expect to produce 0.1 mol of H 2 O
and 0.1 mol of C.
(b)If we started with 0.1 mol of NaOH and excess HCl, we would expect to produce 0.1 mol of
H 2 O and 0.1 mol of NaCl.Exercise 15A
Equilibrium expressions
Write down expressions for the equilibrium constants of the following reactions:
(i) Oxidation of iron(II) ions by chlorine gas
2Fe^2 (aq)Cl 2 (g)\===\2Fe^3 (aq)2Cl(aq)
(ii)Formation of chlorine nitrate gas
ClO(g)NO 2 (g)\===\ClONO 2 (g)
(iii)Formation of nitrogen dioxide gas from dinitrogen tetroxide
N 2 O 4 (g)\===\2NO 2 (g)
What are the units of Kc(T)in each case?Exercise 15B
Equilibrium constants and rate constants
First, a reminder – ‘big K’ symbolizes an equilibrium constant, whereas ‘little k’
symbolizes a rate constant.
Experiments show that the rate of reaction (15.1) follows the rate expressionrate of reaction= kf[H 2 (g)] [I 2 (g)]wherekf(subscript f for ‘forward’) is the rate constant (see Chapter 14) and the
brackets indicate the concentrations at that instant. Immediately after starting the
reaction, the concentrations of hydrogen and iodine begin to fall and so the rate of
the forward reaction falls.