Answer : The standard cell potential of the reaction is, -1.46 V
Explanation :
The given balanced cell reaction is,
[tex]3Pb^{2+}(aq)+2Cr(s)\rightarrow 2Cr^{3+}(aq)+3Pb(s)[/tex]
Here, chromium (Cr) undergoes oxidation by loss of electrons and act as an anode. Lead (Pb) undergoes reduction by gain of electrons and thus act as cathode.
The standard values of cell potentials are:
Standard reduction potential of lead [tex]E^0_{[Pb^{2+}/Pb]}=-0.13V[/tex]
Standard reduction potential of chromium [tex]E^0_{[Cr^{3+}/Cr]}=1.33V[/tex]
Now we have to calculate the standard cell potential for the following reaction.
[tex]E^0=E^0_{cathode}-E^0_{anode}[/tex]
[tex]E^0=E^0_{[Pb^{2+}/Pb]}-E^0_{[Cr^{3+}/Cr]}[/tex]
[tex]E^0=(-0.13V)-1.33V=-1.46V[/tex]
Therefore, the standard cell potential of the reaction is, -1.46 V
The standard cell potential of the cell is 0.61 V
A redox reaction is a reaction in which there is loss/gain of electrons. One specie is oxidized while the other specie is reduced. The equation of the electrochemical cell is shown as; 3Pb2+(aq)+2Cr(s)→3Pb(s)+2Cr3+(aq).
Now; the standard cell potential is obtained from;
E°cell = E°cathode - E°anode
E°cell = -0.13 - (-0.74) = 0.61 V
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