Weak Bases Plus Salts of Weak Bases
Let us consider the second common kind of buffer solution, containing a weak base and
its salt. A solution that contains aqueous NH 3 and ammonium chloride, NH 4 Cl, a soluble
ionic salt of NH 3 , is typical. The NH 4 Cl is completely dissociated, but aqueous NH 3 is
only slightly ionized.Both NH 4 Cl and aqueous NH 3 are sources of NH 4 ions. The completely dissociated
NH 4 Cl provides a high [NH 4 ]. This shifts the ionization equilibrium of aqueous NH 3
far to the left, as NH 4 ions combine with OHions to form nonionized NH 3 and H 2 O.
The result is that [OH] is decreased significantly.Solutions that contain a weak base plus a salt of the weak base are always less basic
than solutions that contain the same concentration of the weak base alone.EXAMPLE 19-3 Weak Base/Salt of Weak Base Buffer Solution
Calculate the concentration of OHand the pH of a solution that is 0.20 Min aqueous NH 3
and0.10 Min NH 4 Cl.
Plan
Write the appropriate equations for bothNH 4 Cl and NH 3 and the ionization constant expres-
sion for NH 3. Then, represent the equilibriumconcentrations algebraically, and substitute into
the Kbexpression.
Solution
The appropriate equations and algebraic representations of concentrations areSubstitution into the Kbexpression for aqueous NH 3 givesKb1.8 10 ^5 The small value of Kbsuggests that xis very small. This leads to two assumptions.(0.10x)(x)
(0.20x)[NH 4 ][OH]
[NH 3 ]rxn 1 NH 4 Cl NH 4
0.10 M 0.10 M 0.10 M(0.20 x) M x M x Mrxn 2 NH 3 H 2 ONH 4 ClOHTotal [NH 4 ] (0.10 x) Mrxn 1rxn 2NH 4 Cl NH 4 NH 4 OH (reversible)(to completion)
ClNH 3 H 2 OH 2 O798 CHAPTER 19: Ionic Equilibria II: Buffers and Titration Curves
Assumption Implicationx0.10, so (0.10x)0.10 Most of the NH 4 comes from NH 4 Cl (rxn 1) and
very little NH 4 comes from ionization of NH 3 (rxn 2)x0.20, so (0.20x)0.20 Very little of the NH 3 ionizes (rxn 2)