Given the data at `25^@C`
` Ag + I^(-) to AgI + e^(-) , E^@ = 0.152V`
` Ag to Ag^(+) + e^(-) , E^@= -0.800V`
What is the value of log `K_(sp)` for AgI

The standard reduction potentials for two reactions are given below: AgCl(s) + e^(-) to Ag(s) + Cl^(-) , E^@ = 0.22 V Ag^(+)(aq) e^(-) +e^(-) to Ag(s) , E^@ = 0.80V The solubility product of AgCl under standard conditions of temperature (298 K) is given by

The half cell reaction, with its standard reduction potentials are I) Pb^(2+) + 2Ag to 2Ag^(+) + Pb (E^(0) = -0.13V) II) Ag^(+) + e^(-) to Ag(E^(0) = + 0.80 V) Which of the following reactions will occur ?

The standard electrode potential of the htwo half cells are given below Ni^(+2) + 2e^(-) to Ni , E^(@) = -0.25 V , Zn^(+2) + 2e^(-) to Zn , E^(0) = -0.77 V The voltage of cell formed by combining the two half cells would be

Given the following standard electrode potentials , PbBr_2(s) + 2e^(-) to Pb(s) + 2Br^(-) (aq) , E^@ - 0.248 V Pb^(2+)(aq) + 2e^(-) to Pb(s) , E^(@) - 0.126 V . If the K_(sp) for PbBr_2 is 7.4 xx 10^(-x) , x is

The standard Potentials at 25^@C for the half reactions are given against them below: Zn^(2+) + 2e^(-) to Zn,E^@ = -0.762V Mg^(2+) + 2e^(-) to Mg, E^@ = -2.37V When Zn dust is added to a solution of MgCl_2

The standard potential (E^(0)) for the half reaction are as Zn to Zn^(2+) + 2e^(-) , E^(0) = + 0.76 V Fe to Fe^(2+) + 2e^(-) , E^(0) = + 0.41 V . The emf for the cell reaction Fe^(2+) + Zn to Zn^(2+) + Fe is

The standard reduction potentials of Zn and Ag in water at 298 K are, Zn^(2+)+2e^(-) rarr Zn , E^(@)= - 0.76V and Ag^(+)+e^(-) rarr Ag , E^(@) = + 0.80V Which of the following reactions take place?

The standard reduction potentials for the two half-cell reactions are given below : Cd^(2+) (aq) + 2e^(-) to Cd(s) , E^(0) = -0.40 V " "Ag^(+)(aq) + e^(-) to Ag(s) , E^(0) = 0.80 V The standard free energy change for the reaction 2Ag_((aq))^(+) + Cd_((s)) + Cd_((aq))^(2+) is given by

The E^(@) values for the changes given below are measured against NHE at 27^(@) C Cu^(2+) + e to Cu^(+) , E^(@) = + 0.15 V , Cu^(+) + e to Cu, E^(@) = + 0.50 V , Zn^(2+) + 2e to Zn , E^(@) = - 0.76 V . The temperature coefficient of emf a cell designed as Zn|Zn^(2+) || Cu^(2+) || Cu is - 1.4 xx 10^(-4)v per degree . For a cell reaction in equilibrium DeltaG= 0 and DeltaG^(@) = -2.303 RT log K_(c) . The heat of reaction and entropy changes during the reaction are related by DeltaG = DeltaH - TDeltaS . The E^@ for the reaction 2Cu^(+) to Cu^(2+) + Cu is :

E^(0) for F_2 + 2e^(-) to 2F^(-) is 2.8 V , E^(0) for 1//2 F_2 + e^(-) to F^(-) is