Write the half reaction for the reaction
`2Fe^(+3) + 2I^(-) to 2Fe^(+2) + I_(2)`

Calculate the euilibrium constant for the reaction, 2Fe^(3+) + 3I^(-) hArr 2Fe^(2+) + I_(3)^(-) . The standard reduction potential in acidic conditions are 0.77 V and 0.54 V respectivelu for Fe^(3+)//Fe^(2+) and I_(3)^(-)//I^(-) couples.

Calculate the value of equilibrium constant for the reaction : 2Fe^(3+)+2I^(-) to 2Fe^(2+)+I_(2) Given that E_(cell)^(@)=0.235" V "

Write the half reaction for the following redox reaction (a) 2Fe^(3+)(aq)+2I^(-)(aq)rarr2Fe^(2+)(aq)+I_(2)(aq) (b) Zn(s)+2H^(+)(aq)rarrZn^(2+)(aq)+H_(2)(g) (iii) Al(s)+3Ag^(+)rarrAl^(+3)(aq)+3Ag(s)

Calculate the equilibrium constant for the reaction : 2Fe^(3+)+3I^(Θ)hArr2Fe^(2+)+I_(3)^(Θ) The standard reduction potential in acidic conditions is 0.78V and 0.54V , respectively, for Fe^(3+)|Fe^(2+) and I_(3)^(c-)|I^(c-) couples

Calculate the equilibrium constant for the reaction, 2Fe^(3+)+3I^(-)hArr2Fe^(2+)+I_(3)^(-) , the standard reduction potentials in acidic conditions are 0.77V and 0.54V respectively for Fe^(3+)//Fe^(2+) and I_(3)^(-)//I^(-) couples.

Which statement is NOT true for the given reaction Fe^(3+)+e^(-) to Fe^(2+) ?