15.1 Precipitation and dissolution (Page 8/17)

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View this simulation to study the process of salts dissolving and forming saturated solutions and precipitates for specific compounds, or compounds for which you select the charges on the ions and the K _sp

Precipitation of silver halides

A solution contains 0.0010 mol of KI and 0.10 mol of KCl per liter. AgNO ₃ is gradually added to this solution. Which forms first, solid AgI or solid AgCl?

Solution

The two equilibria involved are:

AgCl (s) ⇌ {Ag}^{+} (a q) + {Cl}^{−} (a q) K_{sp} = 1.6 \times 10^{- 10}

AgI (s) ⇌ {Ag}^{+} (a q) + I^{−} (a q) K_{sp} = 1.5 \times 10^{- 16}

If the solution contained about equal concentrations of Cl ^– and I ^– , then the silver salt with the smallest K _sp (AgI) would precipitate first. The concentrations are not equal, however, so we should find the [Ag ⁺ ] at which AgCl begins to precipitate and the [Ag ⁺ ] at which AgI begins to precipitate. The salt that forms at the lower [Ag ⁺ ] precipitates first.

For AgI: AgI precipitates when Q equals K _sp for AgI (1.5 $\times$ 10 ^–16 ). When [I ^– ] = 0.0010 M :

Q = [{Ag}^{+}] {[I}^{−}] = [{Ag}^{+}] (0.0010) = 1.5 \times 10^{- 16}

[{Ag}^{+}] = \frac{1.8 \times 10^{- 10}}{0.10} = 1.6 \times 10^{- 9}

AgI begins to precipitate when [Ag ⁺ ] is 1.5 $\times$ 10 ^–13 M .

For AgCl: AgCl precipitates when Q equals K _sp for AgCl (1.6 $\times$ 10 ^–10 ). When [Cl ^– ] = 0.10 M :

Q_{sp} = [{Ag}^{+}] {[Cl}^{−}] = [{Ag}^{+}] (0.10) = 1.6 \times 10^{- 10}

[{Ag}^{+}] = \frac{1.8 \times 10^{- 10}}{0.10} = 1.6 \times 10^{- 9} M

AgCl begins to precipitate when [Ag ⁺ ] is 1.6 $\times$ 10 ^–9 M .

AgI begins to precipitate at a lower [Ag ⁺ ] than AgCl, so AgI begins to precipitate first.

Check your learning

If silver nitrate solution is added to a solution which is 0.050 M in both Cl ^– and Br ^– ions, at what [Ag ⁺ ] would precipitation begin, and what would be the formula of the precipitate?

Answer:

[Ag ⁺ ] = 1.0 $\times$ 10 ^–11 M ; AgBr precipitates first

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Common ion effect

As we saw when we discussed buffer solutions, the hydronium ion concentration of an aqueous solution of acetic acid decreases when the strong electrolyte sodium acetate, NaCH ₃ CO ₂ , is added. We can explain this effect using Le Châtelier’s principle. The addition of acetate ions causes the equilibrium to shift to the left, decreasing the concentration of $H_{3} O^{+}$ to compensate for the increased acetate ion concentration. This increases the concentration of CH ₃ CO ₂ H:

{CH}_{3} {CO}_{2} H + H_{2} O ⇌ H_{3} O^{+} + {CH}_{3} {CO}_{2}^{−}

Because sodium acetate and acetic acid have the acetate ion in common, the influence on the equilibrium is called the common ion effect .

The common ion effect can also have a direct effect on solubility equilibria. Suppose we are looking at the reaction where silver iodide is dissolved:

AgI (s) ⇌ {Ag}^{+} (a q) + I^{−} (a q)

If we were to add potassium iodide (KI) to this solution, we would be adding a substance that shares a common ion with silver iodide. Le Châtelier’s principle tells us that when a change is made to a system at equilibrium, the reaction will shift to counteract that change. In this example, there would be an excess of iodide ions, so the reaction would shift toward the left, causing more silver iodide to precipitate out of solution.

View this simulation to see how the common ion effect work with different concentrations of salts.

Common ion effect

Calculate the molar solubility of cadmium sulfide (CdS) in a 0.010- M solution of cadmium bromide (CdBr ₂ ). The K _sp of CdS is 1.0

\times

10 ^–28 .

Solution

The first thing you should notice is that the cadmium sulfide is dissolved in a solution that contains cadmium ions. We need to use an ICE table to set up this problem and include the CdBr ₂ concentration as a contributor of cadmium ions:

CdS (s) ⇌ {Cd}^{2+} (a q) + S^{2−} (a q)

This table has two main columns and four rows. The first row for the first column does not have a heading and then has the following in the first column: Initial concentration ( M ), Change ( M ), and Equilibrium concentration ( M ). The second column has the header, “C d S equilibrium arrow C d to the second power plus S to the second power superscript negative sign.” Under the second column is a subgroup of three rows and three columns. The first column is blank. The second column has the following: 0.010, x, 0.010 plus x. The third column has the following: 0, x, 0 plus x equals x.

K_{sp} = [{Cd}^{2+}] [S^{2−}] = 1.0 \times 10^{- 28}

(0.010 + x) (x) = 1.0 \times 10^{- 28}

x^{2} + 0.010 x - 1.0 \times 10^{- 28} = 0

We can solve this equation using the quadratic formula, but we can also make an assumption to make this calculation much simpler. Since the K _sp value is so small compared with the cadmium concentration, we can assume that the change between the initial concentration and the equilibrium concentration is negligible, so that 0.010 + x ~ 0.010. Going back to our K _sp expression, we would now get:

K_{sp} = [{Cd}^{2+}] {[S}^{2−}] = 1.0 \times 10^{- 28}

(0.010) (x) = 1.0 \times 10^{- 28}

x = 1.0 \times 10^{- 26}

Therefore, the molar solubility of CdS in this solution is 1.0 $\times$ 10 ^–26 M .

Check your learning

Calculate the molar solubility of aluminum hydroxide, Al(OH) ₃ , in a 0.015- M solution of aluminum nitrate, Al(NO ₃ ) ₃ . The K _sp of Al(OH) ₃ is 2

\times

10 ^–32 .

Answer:

1 $\times$ 10 ^–10 M

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Source: OpenStax, Chemistry. OpenStax CNX. May 20, 2015 Download for free at http://legacy.cnx.org/content/col11760/1.9

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