Find the equilibrium constant for the reaction,
`Cu^(2+) + ln^(@) hArr Cu^(+) + ln ^(3+)`
Given that, `E_(Cu^(2+)//Cu^(+)) = 0.15V`,
`E_(ln^(2+) //ln^(+))^(@) = -0.4 V, E_(ln^(3+) //ln)^(@) = 0.42V`

The equilibrium constant for the reaction Cu_(s) + 2Ag^+ _ (aq) rarr Cu^2+ _ (aq) +2Ag at 298 k is Given E^@cell=0.46v

Calculate the value of equilibrium constant for the reaction at 298 k. Cu(s) +2Ag^+(aq)rarrCu^(2+)(aq)+2Ag(s) E^@ (Ag2+/Ag) =0.80V and E^@( Cu2+/Cu ) =0.34V

Write the Nernst equation and emf of the following cell at 298 K. (i) Mg(s) |Mg^(2+) ( 0.001 M) || Cu^(2+) ( 0.0001M ) | Cu(s) (ii) Fe(s) | Fe^(2+) ( 0.001M) || H^(+) ( 1M) | H_(2)(g) (1 "bar") | Pt(s) Given that, E_(Mg^(2+) //Mg)^(@) = - 2.36V , E_(Cu^(2+) Cu)^(@) = 0.34V, E_(Fe^(2+)Fe)^(@) = -0.44V

Calculate the half cell potential at 25^@C for the cell reaction Cu^(2+)(aq)+2erarrCu , When [Cu^(2+)]=4M and E^@(Cu^(2+)//Cu)=0.34V .

Calculate the half-cell potential at 298 K for the reaction Cu^(2+) ( aq) + 2e^(-) rarr Cu(s) where [ Cu^(2+) ] is 5.0 M and E^(@) is + 0.34 V

Find the cell potential at 25^@C for the cell- Mg//Mg^(2+)(0.001)//Cu^(2+)(0.0001 M)//Cu Given E^@(Mg^(2+)//Mg) = - 2.37V , E^@(Cu^(2+)//Cu) =+0.34V

The reaction, Cu^(2+)(aq) +2CI^- (aq) rarr Cu(s) +CI_2(g) has E_(cell)^@=1.03V .This reaction :

E^@ Fe //Fe^(2+) = 0.44 whereas E^@ Cu // Cu^2+ = -0.32 v Then

Predict whether we can store CuSO_(4) solution in a zinc vessel from the following data. Show your calculation. E_(Zn^(2+)//Zn)^(@) = 0.76V E_(Cu^(2+)//Cu)^(@) = 0.34V