For the cell Mg((s))|Mg((aq.))^(2+)||Ag(...

For the cell `Mg_((s))|Mg_((aq.))^(2+)||Ag_((aq.))^(+)|Ag_((s))`, calculate the equilibrium constant at `25^(@)C` and the maximum work that can be obtained during operation of cell. (Given, `E_(Mg//Mg^(2+))^(@) = +2.37 V` and `E_(Ag^(+)//Ag)^(@) = +0.80V, R = 8.314 J)`

Text Solution

Verified by Experts

The correct Answer is:

`107.457, 3.17 V, 6.118 xx 10^(2)kJ ;`

Topper's Solved these Questions

ELECTROCHEMISTRY
P BAHADUR|Exercise Exercise (7) COMPREHENSION BASED OBJECTIVE PROBLEMS|3 Videos
DILUTE SOLUTION AND COLLIGATIVE PROPERTIES
P BAHADUR|Exercise Exercise 9 Advanced Numerical|12 Videos
MOCK TEST PAPER
P BAHADUR|Exercise Exercise|92 Videos

Similar Questions

Explore conceptually related problems

For the cell Mg_((s))|Mg_((aq))^(++)||Ag_((aq))^(+)|Ag_((s)) Calculate the equilibrium constant at 25^@C and the maximum work that can be obtained during operation of cell. Given E_(Mg//Mg^(+2))^(0)=2.37V & E_(Ag^(+)//Ag)^(0)=+0.890 VR=8.314J

For the cell reaction, Mg|Mg^(2+) (aq.)||Ag^(+) (aq.)|Ag calculate the equilibrium constant at 25^(@)C and maximum work that can be obtained by operating the cell. E_(Mg^(2+)//Mg)^(@)=-2.37 volt and E_(Ag^(+)//Ag)^(@)=+0.80 volt

For the cell reaction , Ni_(s)| Ni _((aq))^(2+) | |Ag_((aq)) |Ag_((s)) Calculate the equilibrium constant at 25^(@)C . How much maximum work would be obtained by operation of this cell? E_(Zn^(2+)//Zn)^(@)=-0.25V and E_(Ag^(+)//Ag)^(@)=0.80V

Define the term degree of dissociation. Write an expression that relates the molar conductivity of a weak electrolyte to its degree of dissociation. (b) For the cell reaction Ni(s)|Ni^(2+)(aq)"||"Ag^(+)(aq)|Ag(s) Calculate the equilibrium constant at 25^@C . How maximum work would be obtained by operation of this cell ? E_((Ni^(2+)//Ni))^(@)=-0.25V and E_((Ag^(+)//Ag))^(@)=0.80V

P BAHADUR-ELECTROCHEMISTRY-Exercise (9) ADVANCED NUMERICAL PROBLEMS

If it is disreed to construct the following voltaic cell to have E(cel...
Text Solution
|
The e.m.f. of the obtained by combining Zn and Cu electrodes of Danie...
Text Solution
|
Calcualte the potential of an indicator electrode versus the standard ...
Text Solution
|
An electrode is prepared by dipping a silver strip into a solution sat...
Text Solution
|
Calculate the minimum weight of NaOH required to be added in R.H.S. t...
Text Solution
|
Consider the cell Ag|AgBr((s)), Br^(-)||AgCl((s)), Cl^(-)|Ag at 25^(@)...
Text Solution
|
Calculate the half cell potential of a reaction Ag(2)S + 2e rarr 2Ag +...
Text Solution
|
The standard electrode potential are for the following reactions : F...
Text Solution
|
The pK(SP) of Agl is 16.07. If the E^(@) value for Ag^(+)//Ag is 0.79...
Text Solution
|
The e.m.f. of cell Zn|ZnSO(4)||CuSO(4)|Cu at 25^(@)C lis 0.03 V and th...
Text Solution
|
For the cell Mg((s))|Mg((aq.))^(2+)||Ag((aq.))^(+)|Ag((s)), calculate ...
Text Solution
|
The standard reduction potential of E(Bi^(3+)//Bi)^(@) and E(Cu^(2+)//...
Text Solution
|
Show that the potentials are additive for the process in which half re...
Text Solution
|
An alloy weighing 1.05g of Pb-Ag was dissolved in desired amount of HN...
Text Solution
|
The following galvanic cell was Zn|{:(Zn(NO(3))(2(aq.))),(100 mL"," ...
Text Solution
|
When silver chloride is dissolved in a large excess of ammonia, practi...
Text Solution
|
Estimate the cell potential of a Daniel cell having 1.0 M Zn^(2+) and ...
Text Solution
|
Calculate the e.m.f. of cell {:(Pt(H(2))),(1atm):}|{:(CH(3)COOH),(0....
Text Solution
|
Calculate the degree of hydrolysis and hydrolysis constant of M//32 so...
Text Solution
|
Design the cell having one of the half reaction CuS + 2e rarr Cu + S^(...
Text Solution
|