Physical Chemistry Third Edition

(C. Jardin) #1

11.2 Forward Reactions with One Reactant 491


Solution

k
ln(2)
t 1 / 2


ln(2)
7. 1 × 108 yr

 9. 8 × 10 −^10 yr−^1

τ

1
k


1
9. 8 × 10 −^10 yr−^1
 1. 02 × 109 yr

Exercise 11.3
Find the time required for a sample of^235 U to decay to 10.0% of its original amount.

Second-Order Reactions


The rate law for a second-order reaction with a single reactant and negligible reverse
reaction is

rrf−

d[A]
dt

kf[A]^2 (11.2-8)

where the rate constantkfhas units of concentration−^1 time−^1 (L mol−^1 s−^1 ,m^3 mol−^1
min−^1 , and so on) or pressure−^1 time−^1 (atm−^1 s−^1 , bar−^1 min−^1 , and so on). With the
variables separated,

1

[A]^2

d[A]
dt

dt

d[A]
[A]^2

−kfdt (11.2-9)

If the temperature is constant,kfis constant, and we can carry out a definite integration
from timet0 to timett′.
∫[A]t′

[A] 0

d[A]
[A]^2

−kf

∫t′

0

dt (11.2-10)

The result is

1

[A]t′


1

[A] 0

kft′ (second order, no reverse reaction) (11.2-11)

where[A]t′denotes the concentration of substance A at timet.

Exercise 11.4
Carry out an indefinite integration and evaluate the constant of integration to obtain Eq. (11.2-11)
in an alternative way.
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