Cu^2 2 e88nCu 0.337 Vm88reduction potential
Zn88nZn^2 2 e 0.763 Vm88oxidation potential
Cu^2 Zn88nCuZn^2 E^0 cell1.100 VThe positive E^0 cellvalue tells us that the forward reaction is spontaneous at standard
conditions. So we conclude that copper(II) ions oxidize metallic zinc to Zn^2 ions as they
are reduced to metallic copper. (Section 21-9 shows that the potential of the standard
zinc–copper voltaic cell is 1.100 volts. This is the spontaneous reaction that occurs.)
The reverse reaction has a negative E^0 and is nonspontaneous.nonspontaneous
reaction: CuZn^2 88nCu^2 Zn E^0 cell1.100 voltsTo make it occur, we would have to supply electrical energy with a potential difference
greater than 1.100 volts. That is, this nonspontaneous reaction would have to be carried
out in an electrolytic cell.EXAMPLE 21-3 Predicting the Direction of Reactions
At standard conditions, will chromium(III) ions, Cr^3 , oxidize metallic copper to copper(II)
ions, Cu^2 , or will Cu^2 oxidize metallic chromium to Cr^3 ions? Write the cell reaction, and
calculate E^0 cellfor the spontaneous reaction.
Plan
We refer to the table of standard reduction potentials and choose the two appropriate half-
reactions.
Solution
The copper half-reaction has the more positive reduction potential, so we write it first. Then
we write the chromium half-reaction as an oxidation, balance the electron transfer, and add
the two half-reactions and their potentials.E^03(Cu^2 2 e88nCu) (reduction) 0.337 Vo
2(Cr88nCr^3 3 e) (oxidation) 0.74 V0oo2Cr3Cu^2 88n2Cr^3 3Cu E^0 cell1.08 V 0 oBecause E^0 cellis positive, we know that the reaction is product-favored (spontaneous).Cu^2 ions spontaneously oxidize metallic Cr to Cr^3 ions and are reduced to metallic Cu.You should now work Exercise 54a.870 CHAPTER 21: Electrochemistry
Problem-Solving Tip:The Sign of E^0 Indicates SpontaneityFor a reaction that is spontaneous at standard conditions, E^0 must be positive. A negative
value of E^0 cellindicates that the reverse of the reaction written would be spontaneous at
standard conditions.