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

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

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

Calculate the DeltaG^(@) and equilibrium constant of the reaction at 27^(@)C Mg+ Cu^(+2) hArr Mg^(+2) + Cu E_(Mg^(2+)//Mg)^(@) = -2.37V, E_(Cu^(2+)//Cu)^(@) = +0.34V

Calculate the Delta G^(@) and equilibrium constant of the rectoi at 27^(@)C Mg+Cu^(+2)- Mg^(+2)+Cu E_(Mg^(2+)//Mg)^(@)=-2.37 V E_(Cu^(2+)//Cu)^(@)=+0.34V

The E^(@) at 25^(@) C for the following reaction is 0.22 V. Calculate the equilibrium constant at 25^(@) C : H_(2)(g)+2AgCl(s)to2Ag(s)+2HCl(aq)

Consider the cell potentials E_(Mg^(2+)|Mg)^(0)=-2.37V and E_(Fe^(3+)|Fe)^(0)=-0.04V The best reducing agent would be

The cell reaction 2Ag^+(aq)+H_2(g)to2H^+(aq)+2Ag(s) ,best represented by :

Calculate standard free energy change for the reaction 2Ag+2H^(+)rarrH_(2)+2Ag^(+) Given : E_(Ag^(+)//Ag)^(@)=+0.80V

Calculate the equilibrium constant of the reaction : Cu(s)+2Ag(aq) hArrCu^(2+)(aq) +2Ag(s) E^(c-)._(cell)=0.46V

Calculate the equilibrium constant of the reaction : Cu(s)+2Ag(aq) hArrCu^(2+)(aq) +2Ag(s) E^(c-)._(cell)=0.46V