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Whats the voltage of CuCl2 + Zn -> ZnCl2 + Cu

User Villat
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1 Answer

15 votes
15 votes

Answer:

Approximately
1.10\; {\rm V} under standard conditions.

Step-by-step explanation:

Equation for the overall reaction:


{\rm CuCl_(2)}\, (aq) + {\rm Zn}\, (s) \to {\rm ZnCl_(2)} \, (aq) + {\rm Cu}\, (s).

Write down the ionic equation for this reaction:


\begin{aligned}& {\rm Cu^(2+)}\, (aq) + 2\; {\rm Cl^(-)}\, (aq) + {\rm Zn}\, (s)\\ & \to {\rm Zn^(2+)} \, (aq) + 2\; {\rm Cl^(-)}\, (aq) + {\rm Cu}\, (s)\end{aligned}.

The net ionic equation for this reaction would be:


{\rm Cu^(2+)}\, (aq) + {\rm Zn}\, (s) \to {\rm Zn^(2+)}\, (aq) + {\rm Cu}\, (s).

In this reaction:

  • Zinc loses electrons and was oxidized (at the anode):
    {\rm Zn}\, (s) \to {\rm Zn^(2+)}\, (aq) + 2\, {\rm e^(-)}.
  • Copper gains electrons and was reduced (at the cathode):
    {\rm Cu^(2+)}\, (aq) + 2\, {\rm e^(-)} \to {\rm Cu} \, (s).

Look up the standard potentials for each half-reaction on a table of standard reduction potentials.

Notice that
{\rm Zn}\, (s) \to {\rm Zn^(2+)}\, (aq) + 2\, {\rm e^(-)} is oxidation and is likely not on the table of standard reduction potentials. However, the reverse reaction,
{\rm Zn^(2+)}\, (aq) + 2\, {\rm e^(-)} \to {\rm Zn}\, (s), is reduction and is likely on the table.


  • E(\text{anode}) = -0.7618\; {\rm V} for
    {\rm Zn^(2+)}\, (aq) + 2\, {\rm e^(-)} \to {\rm Zn}\, (s), and

  • E(\text{cathode}) = 0.3419\; {\rm V} for
    {\rm Cu^(2+)}\, (aq) + 2\, {\rm e^(-)} \to {\rm Cu} \, (s).

The reduction potential of
{\rm Zn}\, (s) \to {\rm Zn^(2+)}\, (aq) + 2\, {\rm e^(-)} would be
-E(\text{anode}) = -(-0.7618\; {\rm V}) = 0.7618\; {\rm V}, the opposite of the reverse reaction
{\rm Zn^(2+)}\, (aq) + 2\, {\rm e^(-)} \to {\rm Zn}\, (s).

The standard potential of the overall reaction would be the sum of the standard potentials of the two half-reactions:


\begin{aligned} E^(\circ) &= E^(\circ)(\text{cathode}) + (-E^(\circ)(\text{anode})) \\ &= 0.3419 - (-0.7618\; {\rm V}) \\ &\approx 1.10\; {\rm V}\end{aligned}.

User FrankkieNL
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