CHAP. 9: CHEMICAL KINETICS [CONTENTS] 273
9.2.2 First-order reactions
9.2.2.1 Type of reaction
A→products. (9.22)9.2.2.2 Kinetic equation
−
dcA
dτ=kcA. (9.23)9.2.2.3 Integrated form of the kinetic equation.
For time as a function of the reactant concentration we have
τ=1
klncA0
cA. (9.24)
For the concentration of substance A as a function of time we have
cA=cA0exp(−kτ). (9.25)9.2.2.4 Reaction half-life
τ 1 / 2 =ln 2
k. (9.26)
Figure9.2shows the time dependence of the concentration of the reactant A and product B.
Example
The half-life of a certain first-order reaction at a certain temperature isτ 1 / 2 = 693s. The initial
concentration of the reactantAiscA0= 0.1 mol dm−^3. Calculate the rate constant of the
reaction and the concentration of substanceAfive minutes after the start of the reaction.