The standard potential of `Cl^(c-)|AgCl|Ag` half cell is related to that of `Ag^(o+)|Ag` though the expression.
`E^(c-)._(Ag^(o+)|Ag)=E^(c-)._(Cl^(c-)|AgCl|A)+(RT)/(F)ln K_(sp)(AgCl)`

The standard electrode of a metal ion (Ag|Ag^(o+)) and metal - insoluble salt anion (Ag|AgCl|Cl^(c-)) are related as (a) E^(c-)._(Ag^(o+)|Ag)=E^(c-)._(Cl^(c-)|AgCl|Ag)+(RT)/(F)ln K_(sp) (b) E^(c-)._(Cl^(c-)|AgCl|Ag)=E^(c-)._(Ag^(o+)\Ag)+(RT)/(F)lnK_(sp) (c) E^(c-)._(Ag^(o+)|Ag)=E^(c-)._(Cl^(c-)|AgCl|Ag)+(RT)/(F)ln.([Cl^(c-)])/(K_(sp)) (d) E^(c-)._(Cl^(c-)|AgCl|Ag)=E^(c-)._(Ag^(o+)|Ag)+(RT)/(F)ln.(K_(sp))/([Cl^(c-)])

Match matrix (E_(Ag^(+)//Ag)^(@)=0.8K_(sp)(AgCl)=10^(-10))

What would be the electrode potential of a silver electrode dipped in a saturated solution of AgCl in contact with 0.1 M KCl solution at 25^(@)C ? E^(c-)._(Ag^(o+)|Ag)=0.799 V K_(sp) of AgCl=1xx10^(-10)

What would be the electrode potential of a silver electrode dipped in a saturated solution of AgCl in contact with 0.1 M KCl solution at 25^(@)C ? E^(c-)._(Ag^(o+)|Ag)=0.799 V K_(sp) of AgCl=1xx10^(-10)

What would be the electrode potential of a silver electrode dipped in a saturated solution of AgCl in contact with 0.1 M KCl solution at 25^(@)C ? E^(c-)._(Ag^(o+)|Ag)=0.799 V K_(sp) of AgCl=1xx10^(-10)

6.537 xx 10^(-2)f of metallic Zn was added to 100 mL of saturated solution of AgCl . Calculate log .([Zn^(2+)])/([Ag^(o+)]) . Given : E^(c-)._(Ag^(o+)|Ag)=0.80V, E^(c-)._(Zn^(2+)|Zn)=-0.763V . K_(sp) of AgCl~~10^(-10), atomic weight of Zn=65.37

6.537 xx 10^(-2)f of metallic Zn was added to 100 mL of saturated solution of AgCl . Calculate log .([Zn^(2+)])/([Ag^(o+)^2]) . Given : E^(c-)._(Ag^(o+)|Ag)=0.80V, E^(c-)._(Zn^(2+)|Zn)=-0.763V . K_(sp) of AgCl~~10^(-10), atomic weight of Zn=65.37 26.5 13.24 53 106

The standard electrode of a metal ion (Ag|Ag^(o+)) and metal - insoluble salt anion (Ag|AgCl|Cl^(c-)) are related as