6.3 Exercises

Section 6.3 Exercises

1. Write the following balanced reactions using cell notation. Use platinum as an inert electrode, if needed.

   (a) [latex]\text{Mg}(s)\;+\;\text{Ni}^{2+}(aq)\;{\longrightarrow}\;\text{Mg}^{2+}(aq)\;+\;\text{Ni}(s)[/latex]

   (b) [latex]2\text{Ag}^{+}(aq)\;+\;\text{Cu}(s)\;{\longrightarrow}\;\text{Cu}^{2+}(aq)\;+\;2\text{Ag}(s)[/latex]

   (c) [latex]\text{Mn}(s)\;+\;\text{Sn(NO}_3)_2(aq)\;{\longrightarrow}\;\text{Mn(NO}_3)_2(aq)\;+\;\text{Au}(s)[/latex]

   (d) [latex]3\text{CuNO}_3(aq)\;+\;\text{Au(NO}_3)_3(aq)\;{\longrightarrow}\;3\text{Cu(NO}_3)_2(aq)\;+\;\text{Au}(s)[/latex]

2. Given the following cell notations, write the corresponding balanced reactions.

   (a) [latex]\text{Mg}(s){\mid}\text{Mg}^{2+}(aq){\parallel}\text{Cu}^{2+}(aq){\mid}\text{Cu}(s)[/latex]

   (b) [latex]\text{Ni}(s){\mid}\text{Ni}^{2+}(aq){\parallel}\text{Ag}^{+}(aq){\mid}\text{Ag}(s)[/latex]

3. Identify the species oxidized, species reduced, and the oxidizing agent and reducing agent for all the following reactions.
   (a) [latex]\text{Al}(s)\;+\;\text{Zr}^{4+}(aq)\;{\longrightarrow}\;\text{Al}^{3+}(aq)\;+\;\text{Zr}(s)[/latex]

   (b) [latex]\text{Ag}^{+}(aq)\;+\;\text{NO}(g)\;{\longrightarrow}\;\text{Ag}(s)\;+\;\text{NO}_3^{\;\;-}(aq)\;\;\;\;\;\;\;\text{(acidic solution)}[/latex]

   (c) [latex]\text{SiO}_3^{\;\;2-}(aq)\;+\;\text{Mg}(s)\;{\longrightarrow}\;\text{Si}(s)\;+\;\text{Mg(OH)}_2(s)\;\;\;\;\;\;\;\text{(basic solution)}[/latex]

   (d) [latex]\text{ClO}_3^{\;\;-}(aq)\;+\;\text{MnO}_2(s)\;{\longrightarrow}\;\text{Cl}^{\;\;-}(aq)\;+\;\text{MnO}_4^{\;\;-}(aq)\;\;\;\;\;\;\;\text{(basic solution)}[/latex]

4. Why is a salt bridge necessary in galvanic cells?
5. (a) An active (metal) electrode was found to lose mass as the oxidation-reduction reaction was allowed to proceed. Was the electrode part of the anode or cathode? Explain.
   (b) An active (metal) electrode was found to gain mass as the oxidation-reduction reaction was allowed to proceed. Was the electrode part of the anode or cathode? Explain.
6. For each reaction listed, determine its standard cell potential at 25 °C.

   (a) [latex]\text{Mg}(s)\;+\;\text{Ni}^{2+}(aq)\;{\longrightarrow}\;\text{Mg}^{2+}(aq)\;+\;\text{Ni}(s)[/latex]

   (b) [latex]2\text{Ag}^{+}(aq)\;+\;\text{Cu}(s)\;{\longrightarrow}\;\text{Cu}^{2+}(aq)\;+\;2\text{Ag}(s)[/latex]

   (c) [latex]\text{Mn}(s)\;+\;\text{Sn(NO}_3)_2(aq)\;{\longrightarrow}\;\text{Mn(NO}_3)_2(aq)\;+\;\text{Sn}(s)[/latex]

   (d) [latex]3\text{Fe(NO}_3)_2(aq)\;+\;\text{Au(NO}_3)_3(aq)\;{\longrightarrow}\;3\text{Fe(NO}_3)_3(aq)\;+\;\text{Au}(s)[/latex]

7. (a) Determine the standard cell potential at 25 °C for the reaction involving the galvanic cell in which cadmium metal is oxidized to 1 M cadmium(II) ion and a half-cell consisting of an aluminum electrode in 1 M aluminum nitrate solution.
   (b) Can the reaction in part (a) be carried out in an electrolytic cell under the given conditions?
8. Determine the standard cell potential at 25 °C for this reaction.
   [latex]\text{Cu}(s){\mid}\text{Cu}^{2+}(aq){\parallel}\text{Au}^{3+}(aq){\mid}\text{Au}(s)[/latex]