PHYSICAL CHEMISTRY IN BRIEF

(Wang) #1
CHAP. 11: ELECTROCHEMISTRY [CONTENTS] 375

Solution
By integrating equation (11.50) we obtain

lnKw(T) = lnKw(298.15) +

∆rH◦
R

( 1

298. 15


1

T

)

= ln

(
1. 005 × 10 −^14

)
+

56500

8. 314

(
1
298. 15


1

T

)

ForT = 273.15 K we obtain
Kw(273.15) = 1. 25 × 10 −^15 ,
and forT= 373.15 K
Kw(273.15) = 9. 81 × 10 −^13.
The results show that the ionic product of water largely depends on temperature. In the studied
temperature range it increased 785-times!

The pressure dependence of the ionic product is low; it exhibits itself only at extremely high
pressures.


11.5.3 Dissociation of a week monobasic acid


A weak monobasic acid HA dissociates according to the equation


HA = H++ A−. (11.52)

The equilibrium constant of this reaction is called theacid dissociation constant. We write


K=

aH+aA−
aHA

=

cH+cA−γ^2 ±
cHAγHA

1

cst

. (11.53)

If we do not consider any other reaction in the system (e.g. dissociation of water), we may
express the composition of an equilibrium mixture using the degree of dissociation:


cHA= (1−α)c, cH+=α c, cA−=α c.
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