Calculate the standard potential of the cell ,If the standard electrode potentials of `Zn^(2+)//Zn and Ag^(+) //Ag` are -0.763 V and + 0.799 V respectively .

Zinc granules are added in excess to 500mL OF 1.0m nickel nitrate solution at 25^(@)C until the equilibrium is reached. If the standard reduction potential of Zn^(2+)|Zn and Ni^(2+)|Ni are -0.75V and -0.24V , respectively, find out the concentration of Ni^(2+) in solution at equilibrium.

Standard reduction electrode potential of Zn^(2+)//Zn is -0.76V . This means:

Consider the reaction 2Ag^(+) +Cd to 2Ag to 2Ag +Cd^(2+) . The standard reduction potentials of Ag^(+)//Ag and Cd^(2+)//Cd are + 0.80 volt and - 0.40, respectively. (i) Give the cell representation. (ii) What is the standard cell emf. E^(Theta) ? (iii) What will the emf of the cell if concentration of Cd^(2+) is 0.1 M and Ag^(+) is 0.2 M? (iv) Will the cell work spontaneously for the condition given in (ii) above ?

What does the standard electrode potential of a metal being negative (E_(Zn^(2+)//Zn)^(Theta)= -0.7632) indicate ?

Consider the reaction 2Ag^(+) + Cd to 2Ag + Cd^(2+) . The standard reduction potentials of Ag^(+)//Ag and Cd^(2+)//Cd are + 0*80 " volt and " 0*40 volt, respectively. Give the cell representation.

Consider the following cell reaction at 298 K : 2Ag^(+)+Cdrarr2Ag+Cd^(2+) The standard reduction potentials (E^(@)) for Ag^(+)//Ag and Cd^(2+)//Cd are 0.80 V and -0.40V respectively : (1) Write the cell representation. (2) What will be the emf of the cell if the concentration of Cd^(2+) is 0.1 M and that of Ag^(+) is 0.2 M? (3) Will the cell work spontaneously for the condition given in (2) above?

Consider the reaction 2Ag^(+) + Cd to 2Ag + Cd^(2+) . The standard reduction potentials of Ag^(+)//Ag and Cd^(2+)//Cd are + 0*80 " volt and " 0*40 volt, respectively. What will be the emf of the cell if concentration of Cd^(2+) is 0*1 M and Ag^(+) is 0*2 M ?

Consider the reaction 2Ag^(+) + Cd to 2Ag + Cd^(2+) . The standard reduction potentials of Ag^(+)//Ag and Cd^(2+)//Cd "are" + 0*80 " volt and " 0*40 volt, respectively. What is the standard cell emf, E^@ ?

Consider the reaction, 2Ag^(+)+Cd rarr 2Ag+Cd^(2+) The standard electrode potentials for Ag^(+) rarr Ag and Cd^(2+) rarr Cd couples are 0.80 volt and -0.40 volt respectively. (i) What is the standard potential E^(@) for this reaction ? (ii) For the electrochemical cell, in which this reaction takes place which electrode is negative electrode ?

The standard potential of the following cell is 0.23 V at 15^(@)C and 0.21V at 35^(@)C . Pt|H_(2) |HCl(aq) |Agcl (s)|g(s) (i) write the cell reaction . (ii) Calculate DeltaH^(@) and DeltaS^(@) for the cell reaction by assuming that these quantities remain unchanged in the range 15^(@)C to 35^(@)C . (iii) calculate the solubility of AgCl in water at 25^(@)C . Give , the standard reduction potential of the (Ag^(+)(aq) //Ag(s) is 0.80 V at 25^(@) C .