How Do Ks0 Values of MnCO3(s) Differ in Freshwater and Estuarine Waters?

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The discussion focuses on comparing the Ks0 values of MnCO3(s) in freshwater and estuarine waters, specifically at 25°C with a carbonate concentration of 10^-6M. Participants clarify that the equilibrium expression for MnCO3 involves the solubility product constant (Ksp), which is necessary to determine the Mn2+ concentration. The correct Ksp value for MnCO3 is identified as 2.2 x 10^-11, allowing for the calculation of Mn2+ concentration in both water types. There is some confusion regarding the use of Ksp and Ks0, but it is ultimately clarified that they represent the same constant in this context. The conversation emphasizes the importance of understanding the chemical equilibrium and proper application of the Ksp formula.
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Homework Statement


compare the Ks0 values of MnCO3(s) in fresh water (I=0) and in estuarine waters (I=0.08) at 25°C. If each of the waters contained a concentration of CO32- equal to 10-6M and MnCO3(s) controls the Mn solubility, what is the Mn2+ concentration in each water? What is the Mn2+ activity in each water?

Homework Equations


MnCO3 (s) = Mn2+ (aq) + CO32- (aq)

Ks0 = {Mn2+}{CO32-} / {MnCO3 (s)}

Ks0 = yMn2+[Mn2+] yCO32-[CO32-]

The Attempt at a Solution


Not sure how to start. Any suggestions are greatly appreciated!
 
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Maybe I'm just not understanding what the problem means. Does it mean if [CO32-] is 10-6M and the ratio of CO32- to Mn2+ is 1:1 in the chemical equation then [Mn2+] is also 10-6M? Is this how others are interpreting the problem?
 
Calculate concentration of Mn2+ assuming solution is saturated AND concentration of CO32- is 10-6.
 
Then an ICE table should be used? Something like this?
____________MnCO3 (s)__________Mn2+ (aq)________CO32- (aq)

Initial___________solid______________0_______________10-6M

Change__________-x_______________+x__________________+x

Equilibrium______-x_______________+x______________10-6M + x
 
No, no need for ICE table.

Write formula for Ksp. You know Ksp value, you know concentration of CO32-, the only unknown is the concentration of Mn2+. And solving for the concentration of Mn2+ is trivial.
 
Ksp = [Mn2+][CO32-]
Ksp = [x][x]
x= 10-6M
Ksp = (10^-6M)(10^-6M)
Ksp = 1.0x10^-12

Is this right?
 
No, you are doing strange things. That means you are completely confused about something.

First - find Ksp value in the Ksp tables. What is the value?
 
Ohh I see what you're saying not, Ksp is 2.2 x 10-11.
 
Now plug the Ksp and CO32- concentration into Ksp formula, and solve for the only unknown.
 
  • #10
Gotcha, that's simple! I was over thinking it. Thank you oh mighty chemistry guy. So in my above equation Ks0 = yMn2+[Mn2+] yCO32-[CO32-], can Ksp be put in for Ks0?

2.2x10^-11 = [Mn2+] (10^-6M)
2.2x10^-5 = [Mn2+]
 
Last edited:
  • #11
As far as I can tell Ksp and Kso are different symbols used for exactly the same constant.

Just in case someone wonder what your equation means. I guess it is

K_{sp} = \gamma_{Mn^{2+}}[Mn^{2+}]\gamma_{CO_3^{2-}}[CO_3^{2-}]
 

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