The standard reduction potential at STP (25∘C and 1 atm) of the following half cells are found as below.
Pb2+aq+2e−→Pb(s) E0=−0.121VPbO2(s)+4H+(aq)+SO2−4(aq)+2e−→PbSO4(s)+2H2O E0=1.71VPb4+(aq)+2e−→Pb2+(aq) E0=1.689V
For the cell PbSO4(s)+2e−→Pb(s)+SO2−4(aq),
The E0 is missing but it is found that in an aqueous solution of H2SO4 having a pH=1.7, when PbSO4(s) is put, then at saturated condition
Solubility of PbSO4=5×10−5Mol/L
(Take 2.303RTF=0.06 and log2=0.3)
List-I contains questions and List-II contains their answers.
List-IList-IIWhat is the E0(in V) for the half-cell(I) PbSO4(s)+2e−→Pb(s)+SO2−4(aq)?(P) -0.168What is the E0cell(in V) of a lead storage battery? It has(II) the cell reaction asPb(s)+PbO2(s)+2H2SO4(aq)→2PbSO4(s)+2H2O(l)(Q) 0.7What is the E0(in V) for the half cell(III)PbO2(s)+4H+(aq)+4e−→Pb(s)+2H2O(I)(R) 2.0Ksp is the equilibrium constant for the reaction(IV) PbO2(s)+4H+(aq)⇌Pb4+(aq)+2H2O(l)(S) -0.068What is the value of Eo (in V)?(T) -0.31(U) 2.02
Which of the following options has the correct combination considering the reactions in List-I and their answers in List-II?