Given E(Cr^(3+)//cr)^@ =- 0.72 V, E(Fe^(...

Given `E_(Cr^(3+)//cr)^@ =- 0.72 V, E_(Fe^(2+)//Fe)^@ =- 0.42 V`. The potential for the cell
`Cr | Cr^(3+) (0.1 M) || FE^(2+) (0.01 M) |` Fe is .

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Given E_(Cr^(3+)//Cr)^(@)= 0.72V , E_(Fe^(2+)//Fe)^(@)=-0.42V . The potential for the cell Cr|Cr^(3+)(0.1M)||Fe^(2+) (0.01M) | Fe is :

Given E_(Cr^(3+)//Cr)^(@)=-0.72V , and E_(Fe^(2+)//Fe)^(@)=-0.42V The potential for the cell. Cr|Cr^(3+)(0.1M)||Fe^(2+)( 0. 01M)Fe is

Given E_(Cr^(3+)//Cr)^(@)=-0.72V and E_(Fe^(2+)//Fe)^(@)=-0.42V The potential for the cell Cr|Cr^(3+)(0.1M)||Fe^(2+)( 0. 01M)Fe is

Given E_((Cr^(3+)) / (Cr)=-0.72 V . E_(Fe^(2+)//Fe)^(@)=-0.42 V The potential for the cell, Cr∣Cr^(3+) (0.1M)∣∣Fe ^(2+) (0.01M)∣Fe is:

Given E ^(@)(Cr ^(3+)|Cr)=-0.72V and E ^(@)(Fe ^(2+)|Fe)=-0.42 V. The potential for the cell Cr |Cr ^(3+) (0.1M)||Fe ^(2+) (0.01M) |Fe is