How Do You Calculate Solubility Product and Solubility in Buffered Solutions?

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Discussion Overview

The discussion revolves around calculating the solubility product (Ksp) and solubility of cobalt(II) hydroxide and magnesium hydroxide in buffered solutions. Participants explore methods for determining these values based on given solubility and pH conditions, focusing on the stoichiometry of the dissolution reactions.

Discussion Character

  • Homework-related
  • Mathematical reasoning
  • Technical explanation

Main Points Raised

  • One participant states the solubility of cobalt(II) hydroxide is 5.4*10^-6 moles/dm^3 in water and calculates the solubility product as 6.3*10^-16.
  • The same participant seeks to find the solubility of cobalt(II) hydroxide at a pH of 10.43, proposing that the concentration ratio between Co2+ and OH- is 1:2.
  • Another participant suggests showing their attempted solutions to facilitate further discussion.
  • A participant explains that the reaction for magnesium hydroxide is Mg(OH)2 ⇔ Mg2+ + 2OH- and notes the pH of 10.52 to find [OH-].
  • There is a discussion about the importance of concentration ratios, with some participants indicating that they are only necessary when the salt is the sole source of ions.
  • One participant expresses confusion about calculating [Mg2+] since it is unknown, while another clarifies that knowing Ksp and the concentration of other ions allows for the calculation of the unknown ion concentration.

Areas of Agreement / Disagreement

Participants generally agree on the approach to calculate Ksp and the relationships between ion concentrations, but there is some confusion regarding the application of concentration ratios and the handling of unknowns in the calculations. The discussion remains unresolved regarding the specific steps to take in the calculations.

Contextual Notes

Participants express uncertainty about the application of stoichiometry in the context of solubility calculations and the role of concentration ratios. There are also unresolved mathematical steps in the proposed solutions.

carle
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Hello! Two questions that I would like to get some help with. I'm translating these so I hope I get it right.

1. The solubility of cobalt(II)hydroxide is 5.4*10^-6 moles/dm^3 in water.
i) What is the solubility product?
ii) What is the solubility of cobalt(II)hydroxide if pH is buffered to 10.43?

In i) I've calculated Ks to 6.3*10^-16 which is correct. The answer in ii) is 8.6*10^-9.

2. pH in a saturated magnesium hydroxide solution is 10.52. Calculate the solubility product for magnesium hydroxide.

The answer is 1.8*10^-11.

I've tried to solve them for a long time but I can't get it right. I need some help on how to approach problems like these.
 
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Show how you tried to solve, we will start from there.
 
Borek said:
Show how you tried to solve, we will start from there.

1
i) The reaction will be Co(OH)2 ⇔ Co2+ + 2OH- so Ks = [Co2+][OH-]2 which gives (5.4*10-6)*(2*5,4*10-6)2 = 6,3*10-16.

ii) pH is 10.43 so pOH = 3.57 and [OH-] = 10-3.57. I think that I need to do some kind of schedule between the mole ratios, because I can see that the concentration ratio between Co2+ + 2OH- is 1:2. But I don't know how to proceed.

2

The reaction will be Mg(OH)2 ⇔ Mg2+ +2OH-. We know that pH = 10.52 so [OH-] = 10-3.48. Ks = [Mg2+][OH-]2, but once again I don't know how to proceed with the concentration ratios.
 
Concentration ratios are important only when the salt itself is the only source of all ions. In both questions here it is enough to solve Ksp for the unknown and to plug known concentration in.
 
Borek said:
Concentration ratios are important only when the salt itself is the only source of all ions. In both questions here it is enough to solve Ksp for the unknown and to plug known concentration in.

Hm.. but in 2) [Mg2+ is unknown, how do I calculate that?
 
Exactly as I told you. [Mg2+] is the only unknown. You know [OH-], you take Ksp from tables, plug and chug.

I feel like you are missing what the Ksp is and how it works. If the solution is saturated product of concentrations (taken to correct powers) equals Ksp - so if you know Ksp and you are given concentrations of all ions but one, you can calculate concentration of this one ion - always. When you deal with solubility you are not given concentrations, but you know from the dissolution stoichiometry how they related to each other, so you can calculate them all. But these are two different cases.
 

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