Standard electrode potential are
`Fe^(2+)//Fe,E^(@)=-0.44 V `
`Fe^(3+)//Fe^(2+), E^(@)=0.77V`
`Fe^(2+),Fe^(3+) and Fe` block are kept together, then

Standard electrode potentials are Fe^(2+)//Fe, E^(@) = -0.44 V Fe^(3+)//Fe^(2+), E^(@) = +0.77 V If Fe^(3+), Fe^(2+) , and Fe block are kept together, then

Given that E_(Fe^(2+)//Fe)^(.)=-0.44V,E_(Fe^(3+)//Fe^(2+))^(@)=0.77V if Fe^(2+),Fe^(3+) and Fe solid are kept together then

Given E^(c-)._(Fe^(2+)|Fe) and E^(c-)._(Fe^(3+)|Fe^(2+)) are -0.44 and 0.77V respectively. If Fe^(2+),Fe^(3+) and Fe blocks are kept together, then

If E_(1 )^(0) is standard electrode potential for Fe//Fe^(+2) , E_(2)^(0) is for Fe^(+2)//Fe^Fe^(+3) and E_(3)^(0) is for Fe// Fe^(+3) then the relation between E_(1)^(0), E_(2)^(0) and E_(3)^(0) will be :

Ag(s)+Fe^(3+)(aq) to Ag^(+) (aq)+ Fe^(2+)(aq) Given standard electrode potentials - E_(Fe^(3+)//Fe^(2+))^(@)=+0.77V and E_(Ag^(+)//Ag(s)))^(@)=+0.80V If the reaction is feasible , enter 1.00 as answer elewise enter 0.00.

Standard electrode potential data is given below : Fe^(3+) (aq) + e ^(-) rarr Fe^(2+) (aq) , E^(o) = + 0.77 V Al^(3+) (aq) + 3e^(-) rarr Al (s) , E^(o) = - 1.66 V Br_(2) (aq) + 2e^(-) rarr 2Br^(-) (aq) , E^(o) = +1.08 V Based on the data given above, reducing power of Fe^(2+) Al and Br^(-) will increase in the order :

Fe^(2+) and Fe^(3+) can be distinguished by

Given, standard electrode potentials, {:(Fe^(3+)+3e^(-) rarr Fe,,,E^(@) = -0.036 " volt"),(Fe^(2+)+2e^(-)rarr Fe,,,E^(@) = - 0.440 " volt"):} The standard electrode potential E^(@) for Fe^(3+) + e^(-) rarr Fe^(2+) is :

Show that E_(Fe^(+3)//Fe^(+2))^(@) =3E_(Fe^(+3)//Fe)^(@)-2E_(Fe^(+2)//Fe)^(@)

Given electrode potentials: Fe^(3+) + e^(-) rarr Fe^(2+) : E^(o) =0.771 V and I_(2) 2e^(-) rarr 2I^(-), E^(o) = 0.556 V then E^(o) for the cell reaction 2 Fe^(3+) 2I ^(-) rarr 2 Fe^(2+) + l_(2) will be: