Given that `E^o` values of `Ag^+//Ag, K^+//K, Mg^(2+)//Mg` and `Cr^(3+) //Cr` are `0.08 V, -2 .93 V, -2 37 V` and ` -0. 74 V` respectively. Therefore the order for the reducing power of the metal is .

The standard E_(red)^(@) Values if A, B and C are + 0.68V , - 0.76V , -0.50V respectively. The order of their reducing power is :

E^(o) value of Mg^(2+)|Mg,Fe^(2+)|Fe and Zn^(2+) | Zn" are " - 2.37 V, - 0.44 and - 0.76 V respectively. The correct statement is :

E^(c-) of Mg^(2+)|Mg,Zn^(2+)|Zn , and Fe^(2+)|Fe are -2.37V,-0.76V , and -0.44V , respectively. Which of the following is correct ?

E^(c-) of Mg^(2+)|Mg,Zn^(2+)|Zn , and Fe^(2+)|Fe are -2.37V,-0.76V , and -0.44V , respectively. Which of the following is correct ?

E_0 values of Zn^(2+), Zn , Mg^(2+), Mg and Cu^(2+), Cu are -0.76 V, -2.36 and 0.34 V respectively. (a) Which metal can be extracted even from its aqueous solutions by electrolysis ? (b) Which metal acts as best reductant ? Write reactions .

E^(@) value of Co^(2+), Co, Al^(3+) , Al , Ag^(+), Ag and Ba^(2+), Ba are respectively 0.28, -1.66, +0.8 and -2.9 V . write the increasing order of the reduction ability of metals and discuss .

Given that the standard reduction potential (E^(@)) of Cr^(3+) | Cr and Cr^(2+) |Cr are -0.74 and -0.91 V respectively. The E^(@) of Cr^(3+) |Cr^(2+) is:

Given that the standard electrode (E^(@)) of metals are : K^(+)//K=- 2.93 V, Ag^(+)//Ag = 0.80 V, Mg^(2+)//Mg =- 2.37 V, Cr^(3+)// Cr =- 0.74 V, Hg^(2+)//Hg = 0.79 V . Arrange these metals in an increasing order of their reducing power.

Given that the standard elctrode potentials (E^(Theta)) of metals are: K^(+)//K= -2.93V, Ag^(+)//g=0.80V , Cu^(2+)//Cu=0.34V, Mg^(2+)//Mg=-2.37V , Cr^(3+)//Cr= -0.74V, Fe^(2+)//Fe= -0.44V . Arrange these metals in an increasing order of their reducing power.

E^(c-) for Cr^(3+)+3e^(-) rarr Cr and Cr^(3+)+e^(-) rarr Cr^(2+) are -0.74 V and -0.40V , respectively, E^(c-) for the reaction is Cr^(+2)+2e^(-) rarr Cr