Calculate the reductoin potential of a half cell consisting of a platinum electrode immersed in 2.0M `Fe^(2+)` and 0.02M `Fe^(3+)`solution `(E^@Fe^(3+)|Fe^(2+)=0.771V)`.

Calculate oxidation number of Fe in Fe2O3.

Calculate oxidation number of Fe in Fe2O3.

Balance the equations Fe + O2→ Fe2O3

Write each half cell reaction of the following electrochemical cell: Na(s)|Na^(+)(1M)||Fe^(3+)(1M)|Fe(s)

Calculate the potential for half cell containing 0.1 M K_2Cr_2O_7(aq) , 0.20 M Cr^(3+)(aq) and 1.0xx10^-4 M H^(+)(aq) The half cell reaction is. CrO_7^(2-)(aq)+14H^(+)+6barerarr2Cr^(3+)(aq)+7H_2O(l) and the standard electrode potential is given as: E^@=1.33V .

Calculate the standard electrode potential of Ni2+/Ni electrode if emf of the cell Ni |Ni2+(0.01 M)||Cu2+(0.1 M)| Cu(s) is 0.59 V at 25°C [Given: Ecu2+Icu = +0.34 v]

Calculate the standard cell potentials of galvanic cell in which the following reactions take place: Calculate the Delta_rG^o and equilibrium constant of the reactions. Fe^(2+)(aq) + Ag^+ (aq) rarr Fe^(3+) (aq) + Ag(s)

On the basis of the standard electrode potential values states for acid solution, predict whether Ti^(4+) species may be used to oxidise Fe^(2+) to Fe^(3+) .

Using the standard electrode potentials given in Table 3.1 predict if the reaction between the following is feasible: Br_2 (aq) and Fe^(2+) (aq) .

Calculate the cell e.m.f. and triangleG for the cell at 298 k. Al//Al^(3+)(0.01M)||Fe^(2+)(0.02M)Fe Given E°(Al^(3+)//Al)=-1.66V and E°(Fe^(2+)//Fe)=-0.44V .