15.1 Precipitation and dissolution (Page 2/17)

Chemistry Page 2 / 17

Some common solubility products are listed in [link] according to their K _sp values, whereas a more extensive compilation of products appears in Appendix J . Each of these equilibrium constants is much smaller than 1 because the compounds listed are only slightly soluble. A small K _sp represents a system in which the equilibrium lies to the left, so that relatively few hydrated ions would be present in a saturated solution.

Common Solubility Products by Decreasing Equilibrium Constants
Substance	K _sp at 25 °C
CuCl	1.2 $\times$ 10 ^–6
CuBr	6.27 $\times$ 10 ^–9
AgI	1.5 $\times$ 10 ^–16
PbS	7 $\times$ 10 ^–29
Al(OH) ₃	2 $\times$ 10 ^–32
Fe(OH) ₃	4 $\times$ 10 ^–38

Writing equations and solubility products

Write the ionic equation for the dissolution and the solubility product expression for each of the following slightly soluble ionic compounds:

(a) AgI, silver iodide, a solid with antiseptic properties

(b) CaCO ₃ , calcium carbonate, the active ingredient in many over-the-counter chewable antacids

(d) Mg(NH ₄ )PO ₄ , magnesium ammonium phosphate, an essentially insoluble substance used in tests for magnesium

(e) Ca ₅ (PO ₄ ) ₃ OH, the mineral apatite, a source of phosphate for fertilizers

(Hint: When determining how to break (d) and (e) up into ions, refer to the list of polyatomic ions in the section on chemical nomenclature.)

Solution

(a)

AgI (s) ⇌ {Ag}^{+} (a q) + I^{−} (a q) K_{sp} = {[Ag}^{+}] [I^{−}]

(b) ${CaCO}_{3} (s) ⇌ {Ca}^{2+} (a q) + {CO}_{3}^{2−} (a q) K_{sp} = [{Ca}^{2+} {] [CO}_{3}^{2−}]$

(d) $Mg ({NH}_{4}) {PO}_{4} (s) ⇌ {Mg}^{2+} (a q) + {NH}_{4}^{+} (a q) + {PO}_{4}^{3−} (a q) K_{sp} = [{Mg}^{2+} {] [NH}_{4}^{+}] {[PO}_{4}^{3−}]$

(e) ${Ca}_{5} ({PO}_{4}) 3 OH (s) ⇌ {5Ca}^{2+} (a q) + {3PO}_{4}^{3−} (a q) + {OH}^{−} (a q) K_{sp} = {{[Ca}^{2+}]}^{5} [P O_{4}^{3−}]^{3} [{OH}^{−}]$

Check your learning

Write the ionic equation for the dissolution and the solubility product for each of the following slightly soluble compounds:

(a) BaSO ₄

(b) Ag ₂ SO ₄

(d) Pb(OH)Cl

Answer:

(a) ${BaSO}_{4} (s) ⇌ {Ba}^{2+} (a q) + {SO}_{4}^{2−} (a q) K_{sp} = [{Ba}^{2+} {] [SO}_{4} {^{2}}^{−}];$ (b) ${Ag}_{2} {SO}_{4} (s) ⇌ {2Ag}^{+} (a q) + {SO}_{4}^{2−} (a q) K_{sp} = {[{Ag}^{+}]}^{2} [{SO}_{4}^{2−}];$ (c) ${Al (OH)}_{3} (s) ⇌ {Al}^{2+} (a q) + {3OH}^{−} (a q) K_{sp} = [{Al}^{3+}] {[OH}^{−}]^{3};$ (d) $Pb(OH)Cl(s) ⇌ {Pb}^{2+} (a q) + {OH}^{−} (a q) + {Cl}^{−} (a q) K_{sp} = [{Pb}^{2+}] {[OH}^{−}] [{Cl}^{−}]$

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Now we will extend the discussion of K _sp and show how the solubility product constant is determined from the solubility of its ions, as well as how K _sp can be used to determine the molar solubility of a substance.

K _sp And solubility

Recall that the definition of solubility is the maximum possible concentration of a solute in a solution at a given temperature and pressure. We can determine the solubility product of a slightly soluble solid from that measure of its solubility at a given temperature and pressure, provided that the only significant reaction that occurs when the solid dissolves is its dissociation into solvated ions, that is, the only equilibrium involved is:

M_{p} X_{q} (s) ⇌ p M^{m+} (a q) + q X^{n−} (a q)

In this case, we calculate the solubility product by taking the solid’s solubility expressed in units of moles per liter (mol/L), known as its molar solubility .

Calculation of K _sp From equilibrium concentrations

We began the chapter with an informal discussion of how the mineral fluorite ( [link] ) is formed. Fluorite, CaF ₂ , is a slightly soluble solid that dissolves according to the equation:

{CaF}_{2} (s) ⇌ {Ca}^{2+} (a q) + {2F}^{−} (a q)

The concentration of Ca ²⁺ in a saturated solution of CaF ₂ is 2.15 $\times$ 10 ^–4 M ; therefore, that of F ^– is 4.30 $\times$ 10 ^–4 M , that is, twice the concentration of Ca ²⁺ . What is the solubility product of fluorite?

Solution

First, write out the K _sp expression, then substitute in concentrations and solve for K _sp :

{CaF}_{2} (s) ⇌ {Ca}^{2+} (a q) + {2F}^{−} (a q)

A saturated solution is a solution at equilibrium with the solid. Thus:

K_{sp} = [{Ca}^{2+}] {[F^{−}]}^{2} = (2.1 \times 10^{- 4}) {(4.2 \times 10^{- 4})}^{2} = 3.7 \times 10^{- 11}

As with other equilibrium constants, we do not include units with K _sp .

Check your learning

In a saturated solution that is in contact with solid Mg(OH) ₂ , the concentration of Mg ²⁺ is 1.31

\times

10 ^–4 M . What is the solubility product for Mg(OH) ₂ ?

{Mg(OH)}_{2} (s) ⇌ {Mg}^{2+} (a q) + {2OH}^{−} (a q)

Answer:

8.99 $\times$ 10 ^–12

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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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15.1 Precipitation and dissolution (Page 2/17)

Writing equations and solubility products

Solution

Check your learning

Answer:

K sp And solubility

Calculation of K sp From equilibrium concentrations

Solution

Check your learning

Answer:

Questions & Answers

Read also:

Get Jobilize Job Search Mobile App in your pocket Now!

K _sp And solubility

Calculation of K _sp From equilibrium concentrations