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Topic: Ion hydrolysis effect on molar solubility  (Read 1673 times)

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Offline licamine

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Ion hydrolysis effect on molar solubility
« on: July 30, 2016, 09:06:42 AM »
The Ksp for BaCO3 is 5.5٠10-10. Ignoring the hydrolysis of CO32-, this would mean it has a molar solubility of 2.35٠10-5 mol٠L-1. However, taking into account the hydrolysis of CO32-, how does one calculate the actual molarsolublity of BaCO3?
Ka1 and Ka2 for carbonic acid are, respectively, 4.4٠10-7 and 5.6٠10-11.

So I've tried adding up the equations and calculating the Ksp for the resulting equation, like in problems where there's formation of complex ions, but it doesn't seem to work.
BaCO3(s) --> Ba2+(aq) + CO32-(aq) Ksp = 5.5٠10-10
CO32- (aq) + H2O(l) --> HCO3- (aq) + OH-(aq) Kh2 = Kw/Ka2 = 1.79٠10-4
HCO3-(aq) + H2O(l) --> H2CO3(aq) + OH-(aq) Kh1 = Kw/Ka1 = 2.27٠10-8
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BaCO3(s) + 2H2O(l) --> Ba2+(aq) + H2CO3(aq) + 2OH-(aq) K= Ksp٠Kh2٠Kh1 = 2.24٠10-21
I don't know what to do with this number, since the concentration of H2CO3 is far smaller than that of Ba2+, because the hydrolyses have such small constants, unlike the Kf of a complex ion.

Answer: the solubility increases to 5.32٠10-5

Thank you very much!

Offline Borek

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Re: Ion hydrolysis effect on molar solubility
« Reply #1 on: July 30, 2016, 03:14:11 PM »
Have you tried the standard approach - that is, writing down all involved equilibria, all involved mass balances and charge balances, and trying to solve the set of equations?

My bet is that you can safely ignore the H2CO3/HCO3- equilibrium, only the first protonation of the CO32- counts.
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