Calcium lactate is a salt of weak organic acid and represented as `Ca(Lac)_(2)`. A saturated solution of `Ca(Lac)_(2)` contains 0.13 mole of this salt in 0.50 litre solution. The pOH of this solution is 5.60 . Assuming complete dissociation of the salt , calculate `K_(a)` of lactic acid.

Calcium lactate is a salt of weak organic acid and represented as `Ca(

1.	Calcium lactate is a salt of weak organic acid and represented as `Ca(Lac)_(2)`. A saturated solution of `Ca(Lac)_(2)` contains 0.13 mole of this salt in 0.50 litre solution. The pOH of this solution is 5.60 . Assuming complete dissociation of the salt , calculate `K_(a)` of lactic acid.
Answer» In solution, `Ca(Lac)_(2)` is hydrolysed as follows : `Ca(Lac)_(2)+2H_(2)O hArr Ca(OH)_(2) + underset(underset("(weak)")("lactic acid"))(2HLac)` or `Ca^(2)+2 Lac^(-1) + 2 H_(2)O hArr Ca^(2+) + 2 OH^(-) + 2 Hlac` or `2 Lac^(-) + 2H_(2)O hArr 2 OH^(-) + 2 HLac` or `Lac^(-) + H_(2)O hArr OH^(-) + HLac` Hydrolysis constant, `K_(h) = ([OH^(-)][HLac])/([Lac^(-)])` But `[Ca(Lac)_(2)]=0.26 ` mol `L^-1)` so that `[Lac^(-)]=0.52 ` mol `L^(-)` and `pOH = 5.60 ` so that `- log [OH^(-) ] = 5.60` or `[OH^(-)] = ` antilog `(-5.6)=2.51xx10^(-6)M` `:. K_(h) = ((2.51xx10^(-6))^(2))/(0.52)=1.21xx10^(-11)` Further, `HLac hArr H^(+) + Lac^(-)` `K_(a) = ([H^(+)][Lac^(-)])/([HLac]) " " ...(ii)` Also `K_(w) = [H^(+)][OH^(-)]` ...(iii) From (i), (ii) and (iii), `K_(a)=(K_(w))/(K_(h))=(10^(-14))/(1.21xx10^(-11))=8.26xx10^(-4)`

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Calcium lactate is a salt of weak organic acid and represented as `Ca(Lac)_(2)`. A saturated solution of `Ca(Lac)_(2)` contains 0.13 mole of this salt in 0.50 litre solution. The pOH of this solution is 5.60 . Assuming complete dissociation of the salt , calculate `K_(a)` of lactic acid.

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