Consider the following reaction at equilibrium
`2Fe^(2+) (aq)+ Cu^(2+) rarr 2Fe^(3+) (aq)+Cu`
When the reaction comes to equilibrium, what is the cell voltage?

Calculate Delta_rG^@ for the following reactions: Fe^(+2) (aq)+Ag^(+) (aq) to Fe^(+3) (aq)+Ag (s)

CuO + H_(2) rarr Cu + H_(2) O (i) in this reaction name the reaction : (ii) that is reduced.

Identify the reducing agent in the following reaction : Fe_(2)O_(3)+3COrarr2Fe+3CO_(2)

Balance the following redox reaction by half reaction method. Fe^(2+)(aq)+Cr_(2)O_(7)^(2-)(aq)toFe^(3+)(aq)+Cr^(3+)(aq) (In acid medium)

The equilibrium constant of the following redox reaction at 298 K is 1xx10^(8) . 2Fe^(3+)(aq)+2I^(-)(aq) hArr 2Fe^(2+)(aq)+I_(2)(s) If the standard reduction potential of iodine becoming iodide is +0.54V , what is the standard reduction potential of Fe^(3+)//Fe^(2+) ?

Consider the reaction CI_(2) (aq)+H_(2)S(aq) rarr S(s)+2H^(+)(aq) +2CI^(-1)(aq) The rate equation for this reaction is rate = k[CI_(2)] [H_(2)S] Which of these mechanisms is /are consistent with this rate equation ? CI_(2)+H_(2)S rarr H^(+)+CI^(-)+CI^(+)HS^(-) (slow ) CI^(+)+HS^(-)+CI^(-)+S (fas) H_(2)S rarr H^(+)+HS^(-) (fast equilibrium ) CI_(2)+HS^(-) rarr 2CI^(-)+H^(+) +S (slow )

In the cell reaction : Ag(s)+Cu^(2+)(aq)+Br^(-)(aq)toAgBr(s)+Cu^(+)(aq) the reduction half reaction is :