Find the standard electrode potential of...

Find the standard electrode potential of `MnO_(4)^(c-)|MnO_(2).` The standard electrode potential of `MnO_(4)^(c-)|Mn^(2+)=1.51V` and `MnO_(2)|MnO_(2)|Mn^(2+)=1.23V`.

Text Solution

Verified by Experts

`{:(MnO_(4)^(-)+8H^(+)+5e^(-)rarrMn^(2+)+4H_(2)O,E^(@) =1.51 "volt"),(MnO_(2)+4H^(+)+2e^(-)rarr Mn^(2+) +2H_(2)O , E^(@) = 1.23 "volt"):}/("Subtract" " "MnO_(4)^(-)+4H^(+)+3e^(-)rarrMnO_(2) +2H_(2)O, E^(@) = ?) `
`E^(@) = (5 xx 1.51 -2 xx 1.23)/(3) = (7.55 -2.45)/(3) = (5.09)/(3) = 1.70` volt

Topper's Solved these Questions

ELECTROCHEMISTRY
ALLEN|Exercise COMPREHENSION TYPE|18 Videos
ELECTROCHEMISTRY
ALLEN|Exercise INTEGER TYPE|18 Videos
ELECTROCHEMISTRY
ALLEN|Exercise EXERCISE -05 [B]|38 Videos
CHEMISTRY AT A GLANCE
ALLEN|Exercise ORGANIC CHEMISTRY|472 Videos
HYDROCARBON
ALLEN|Exercise MCQ|15 Videos

Similar Questions

Explore conceptually related problems

Conversion of MnO_(4)^(-) into MnO_(4)^(2-) is oxidation

If /_\G^(@) for the half cell MnO_4^(-)"|"MnO_2 in an acid solution is -xF; then find the value of x.(Given: E_(MnO_4^(-)"|"Mn^(2+))^(@)=1.5V,E_(MnO_2"|"Mn^(2+))^(@)=1.25V )

The number of electrons involved in the conversion of MnO_(4)^(-) to MnO_(2) is

The charge required for the reduction of 1 mole of MnO_(4)^(-) to MnO_(2) is :

How many Faradays are needed to reduce 1 mole of MnO_(4)^(-) to Mn^(2+) ?

The charge required for reducing 1 mole of MnO_4^(-) to Mn^(2+) is

The shape of MnO_(4)^(-) ion and the hybridisation of Mn in MnO_(4)^(-) is

The shapes of MnO_(4)^(-) ion and the hybridization of Mn in MnO_(4)^(-) is :

The value of n in : MnO_(4)^(-)+8H^(+)+n erarr Mn^(2+)+4H_(2)O is

At 298 K, the standard reduction potentials are 1.51 V for MnO_(4)^(-) | Mn^(2+), 1.36 V for Cl^(2) | Cl^(-) , 1.07 V for Br_(2)|Br^(-), and 0.54 V for I_(2)|I^(-) . At pH=3, permanganate is expected to oxidize ((RT)/(F) = 0.059V) :

ALLEN-ELECTROCHEMISTRY-MISCELLANEOUS SOLVED EXAMPLES

Given the standard electrode potentials K^(+)//K=-2.93V,Ag^(+)//Ag=0...
Text Solution
|
A cell is prepared by dipping a copper rod in 1 MCuSO(4) solution and ...
Text Solution
|
Predict whether the following reaction can occur under standard condit...
Text Solution
|
Given that, Co^(3+) +e^(-)rarr Co^(2+) , E^(@) = +1.82 V 2H(2)O rarr...
Text Solution
|
The measured e.m.f. at 25^(@)C for the cell reaction, Zn(s) +XCu^(2+...
Text Solution
|
Calculate DeltaG^(@) for the reaction : Cu^(2+)(aq) +Fe(s) hArr Fe^(2+...
Text Solution
|
A solution of copper (II) sulphate is electrolysed between copper elec...
Text Solution
|
Calculate the equilibrium constant for the reaction at 298K. Zn(s) +...
Text Solution
|
Calculate the cell e.m.f. and DeltaG for the cell reaction at 298K for...
Text Solution
|
The EMF of a cell corresponding to the reaction : Zn((s)) + 2H((aq))^(...
Text Solution
|
Find the standard electrode potential of MnO(4)^(c-)|MnO(2). The stand...
Text Solution
|
The half cell potential of a half-cell A^(x+), A^((x+n)+)|Pt were foun...
Text Solution
|
Consider the given data. {:(,"Half-cell reaction","Standard reductio...
Text Solution
|
Specific conductance of 10^(-4)M n-Butyric acid aqueous solution is 1....
Text Solution
|
How much time is required for complete decomposition of 4 moles of wat...
Text Solution
|
The cell Pt|H(2)(g) (1atm)|H^(+), pH = x || Normal calomal electrode h...
Text Solution
|
The specific conductivity of a saturated AgCl solution if found to be ...
Text Solution
|
Consider the following standard reduction potentials:- {:(Fe^(2+)+2e...
Text Solution
|
Find ^^(m)^(oo) ("in" Omega^(-1) cm^(2) mol^(-1)) for strong electroyt...
Text Solution
|
20 Ml of KOH solution was titrated with 0.20 M H(2)SO(4) solution in a...
Text Solution
|