Calculate `Delta G^(@)` for the following cell reaction.
`Zn_((s)) + Ag_(2)O_((s)) + H_(2)O((I)) to Zn_(aq)^(2+) + 2Ag(s) + 2OH_((aq))^(-)`
`E_((Ag^(+))/(Ag))^(@) =+0.80V` and`E_((Zn^(2+))/(Zn)) ^(@)=-0.76V`

Determine DeltaG^(0) for the button cell used in the watches. The cell reactions is Zn_((s))+Ag _(2)O_((s))H_(2)O _((l))to Zn_((aq))^(2+)+2 Ag _((s))+2OH_((aq))^(-) E_(Ag^(+)//Ag)^(0) =+0.80V,E_(Zn^(2+)//Zn)^(0)=-0.76V.

Balance the following chemical equations. i) Zn_((s))+AgNO_(3(aq))rarr Zn(NO_(3))_(2(aq))+Ag_((s))

Balance the following chemical equations. iii) Ag_((s))+H_(2)S_((g)) rarr Ag_(2)S_((s))+H_(2)O_((l))

Calculate DetlaG^(@) for the following reaction, Zn_((s)) + Cu_((aq))^(2+) to Zn_((aq))^(2+) + Cu_((s)) . DeltaG_(f)^(@) of Zn_((aq))^(2+) and Cu_((aq))^(+2) is -147.2 kJ mol^(-1) and 65kJmol^(-1) .

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)

If the value of equilibrium constant (K_f) for the operation Zn_((aq))^(2+) + 4OH_((aq))^(-) iff Zn(OH)_(4(aq))^(2-) is 10^(10x) , then x is (Given : Zn_((aq))^(2+) + 2e^(-) to Zn_((s)) , E^(@)=-0.76 V , Zn(OH)_(4(aq))^(2-) + 2e^(-) to Zn_((s)) + 4OH_((aq))^(-) , E^(@) = - 1.36 V , 2.303 (RT)/(F) = 0.06 )