Calculate the equilibrium constant of the reaction :
`Cu_((s))+2Ag_((aq))^(+)to Cu_((aq))^(2+)+2Ag_((a))`
`E_((cell))^(Θ)=0.46V`

The equilibrium constant of the reaction Cu_((s)) + 2Ag_((aq))^(+) iff Cu_((aq))^(+2) + 2Ag_((s)) , " is " x xx 10^(15) , 'x' is ( E^(@) = 0.46 V at 298 K )

Write the cell reaction taking plce in the cell CU_((s))|Cu_((aq))^(+2)||Ag _((aq))^(+) |Ag _((s))

E^@ of In^(3+), In^(+) and Cu^(2+)m Cu^(+) are -0.4 V and -0.42 V respectively, Calculate the equilibrium constant for the reaction. In^(2+) + Cu^(2+) to In^(3+) + Cu^(+) at 25^@C .

Determine the values of K_(c) for the following reacton Ni_((s))+2 Ag _((aq))^(+)to Ni_((aq))^(2+)+2Ag _((s)) E^(0) =1.05V.

Calculate the emf of the cell with the cell reaction Ni _((s))+2Ag ^(+)(0.002M)to Ni^(2+)(0.160M) +2 Ag_((s)) E_(cell)^(0)=1.05V.

Define emf. Calculat the emf of the following galvanic cell : Zn_((s))+Cu_((aq))^(+2)to Zn_((aq))^(+2)+Cu_((s)) E_(zn^(+2//Zn))^(0) =0.76V(anode) ,E_(cu^(+3//Cu))^(0)=+0.34 (Cathode)

Calculate K_(c) for the reaction at 298 K Zn_((s))+Cu_((aq))^(+2)hArrZn _((aq))^(2+)+Cu_((s)) E _(Zn^(2+)//Zn)^(0)=-0.76V, E_(Cu^(2+)//Cu)^(0) =+0.34V.

The cell in which the following cell reaction occurs, 2Fe _((aq))^(3+)+2I_((aq))^(-)to 2Fe _((aq))^(2+)+I_(2(s)) has E_(cell)^(0)=0.236V at 298 K. Calculate the standard Gibbs energy and the equilibrium costant of the cell reaction.

Write the Nernst equation for the EMF of the cell Ni _((s))|Ni +_((aq))^(2+)||Ag_((aq))^(+)|Ag