What is the potential of an electrode which originally contained 0.1 `MNO_3^-)` and `0.4MH^+` and which has been treated by 8% of the cadmium necessary to reduce all the `NO_3^-` to NO(g) at 1 bar?
Give: `NO_3^(-)+4H^++3e^-)to NO+2H_2O, E^(@)=0.96V, log2=0.3`

Calculate the potential of an indicator electrode versus the standard hydrogen electrode, which originally contained 0.1M MnO_(4)^(-) and 0.8M H^(+) and which was treated with Fe^(2+) necessary to reduce 90% of the MnO_(4) to Mn^(2+) MnO_(4)^(-) +8H^(+) +5e rarr Mn^(2+) +H_(2)O, E^(@) = 1.51V

Calculate the potential of an indicator electrode versus the standard hydrogen electrode, which originally contained 0.1M MnO_(4)^(-) and 0.8M H^(+) and which was treated with Fe^(2+) necessary to reduce 90% of the MnO_(4) to Mn^(2+) MnO_(4)^(-) +8H^(+) +5e rarr Mn^(2+) +H_(2)O, E^(@) = 1.51V

What is the electrode potential Fe^(3+)//Fe electrode in which concentration of Fe^(3+) ions is 0.1M Given E^(@)Fe^(3+)//Fe=+0.771V

Copper reduces NO_3^(-) into NO_2 depending upon concentration of HNO_3 in solution Assuming [Cu^(2+)]=0.1M, "and" P_(NO)=P_(NO_2)=10^(-3) bar, at which concentration of HNO_3 , Thermodynamic tendency for reduction of NO_3^(-) into NO and NO_2 by copper is same ? Given: E_(cu^(2+)|cu)^(@)=+0.34 "volt", E_(NO_3^(-)|NO)^(@)=+0.96 "volt",E_(NO_3^(-)|NO_(2))^(@)=+0.76 "volt"]

The reduction of NO_(3)^(-) occurs as No_(3)^(-) + 4H^(+) + 3e^(-) rightarrow NO+ 2H_(2)O, E^(@) = 0.96V If the reaction originally starts with 1M of NO_(3)^(-) and 5M of H^(+) and the reaction goes to 80% completion such that under those conditions of temperature the pressure of NO_(g) was 2 bar. Find the reduction potential of the remaining solution.

How long (in hours) will it take to produce 0.3 mole of HNO_(2) by following reaction if an average current of 2 amp passes through the cell? NO_(3)^(-)+3H_(3)O^(+)+2e^(-)rarrHNO_(2)+4H_(2)O,E^(@)=0.94V

The oxidation electrode potential E, of a 0.1 M solution of M^(+) ions (E_(RP)^(o) = - 2.36 V) is :

The standard reduction potential of TiO^(2+) and Ti^(3+) are given by TiO_(2+)+2H^(+)+e^(-)toTi^(3+)+H_(2)O" "E^(@)=0.10V Ti^(3+)+3e^(-)toTi" "E^(@)=-1.21V

What will be the degree of dissociation of 0.1 M Mg(NO_3)_2 solution if van't Hoff factor is 2.74 ?

Standard electrode potential data are useful for understanding the suitability of an oxidant in a redox titration. Some half cell reaction and their standard potentials are given below: MnO_(4)^(-)(aq) +8H^(+)(aq) +5e^(-) rarr Mn^(2+)(aq) +4H_(2)O(l) E^(@) = 1.51V Cr_(2)O_(7)^(2-)(aq) +14H^(+) (aq) +6e^(-) rarr 2Cr^(3+)(aq) +7H_(2)O(l), E^(@) = 1.38V Fe^(3+) (aq) +e^(-) rarr Fe^(2+) (aq), E^(@) = 0.77V CI_(2)(g) +2e^(-) rarr 2CI^(-)(aq), E^(@) = 1.40V Identify the only correct statement regarding quantitative estimation of aqueous Fe(NO_(3))_(2)