CHAP. 9: CHEMICAL KINETICS [CONTENTS] 267
Determination of the rate constants, the order of reaction and the partial orders of reaction
from experimental kinetic data is discussed in section (9.3). In elementary reactions [see (9.5)],
the partial orders of reactions equal their stoichiometric coefficients.
Symbols: When there is no risk of confusion, we will use simplekinstead of the more correct
ki.
9.1.4 Reaction half-life
The half-life of a reaction is the time in which the concentration of a chosen reactant falls to
one half. It is denotedτ 1 / 2 orτ 0. 5.
Note:When there is only one reactant in the reaction, or when the initial concentrations
of reactants are in a stoichiometric ratio, the half-life of reaction can be determined un-
ambiguously. When there are more reactants and their initial concentrations are not in a
stoichiometric ratio, the half-life is usually defined with respect to the key component (a
compounds which would first disappear is usually chosen as the key component).Example
The initial concentration of substance A reacting according to the equationA→Rwas 2 mol dm−^3. After 20 minutes it fell to 1 mol dm−^3. Calculate the half-life of the reaction.Solution
From the definition of the reaction half-life it follows thatτ 1 / 2 = 20 min.9.1.5 Material balance
When the concentrations of more than one substance act in a kinetic equation, we cannot
solve this equation unambiguously because we have only one equation and several dependent
variables. In order to obtain a differential equation for one dependent variable, we carry out
material balance.