PHYSICAL CHEMISTRY IN BRIEF

(Wang) #1
CHAP. 9: CHEMICAL KINETICS [CONTENTS] 318

For the temperature dependence of the reaction rate constant (9.163) we then have

k= (cst)(n−1)

RT

NAh

e

∆S#
R e−
∆H#
RT , (9.164)

wherecst= 1 mol dm−^3 is the standard concentration,nis the order of reaction,NAis the Avo-
gadro constant, andhis the Planck constant. The activation enthalpy ∆H#and the activation
entropy ∆S#are the reaction enthalpy and reaction entropy of a hypothetical chemical reaction
reactants ⇀↽ activated complex.In the first approximation they are considered independent
of temperature.


Example
The reaction
2 HI→H 2 +I 2
was studied at two temperatures. At T 1 = 556 K, the rate constant k 1 = 3.517 ×
10 −^7 dm^3 mol−^1 s−^1 , and atT 2 = 781 K , the rate constantk 2 = 3.954× 10 −^2 dm^3 mol−^1 s−^1.
Calculate the values of∆H#and∆S#.
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