Write the Nernst equation for the cell reaction in the Daniel cell. How will the `E_(cell)` be affected when concentration of `Zn^(2+)` ion is increased?

Write the cathode, anode and cell reaction in the lead storage cell.

Write Nernst equation and cell reaction of the following cell: Zn|Zn^(2+)||Cu^(2+)|Cu

Calculate the potential of the following cell reaction at 298K: Sn^(4+)(1.50M)+Zn(s)rarrSn^(2+)(0.5M)+zn^(2+)(2.0M) The standard potential of the cell is 0.89V, will the potential of the cell will increase or decrease if the concentration of Sn^(2+) is increased in the cell?

From the given cell reactions write Nernst equation for the cell

Write the overall cell reaction for lead storage battery.

A reaction is of first order in reactant A and of second order in reactant B. How is rate of reaction affected when (a) Concentration of B alone is increased to three times. (b) The concentration of A as well as B is doubled.

Give the construction and working of Zn/ CuSO_(4) or Daniel cell.

What is e.m.f. of the cell, when the cell reaction attains equilibrium ?

Consider the following half cell reaction: Br_2+2barerarr2Br^- , E^@=1.09V I_2+2barerarr2I^- , E^@=0.54V If I_2 and Br_2 are added to solution containing 1M concentration of I^- and Br^- resepctively. How will the increase in the concentration of Br^- affect E_(cell) ?

Write the Nernst equation for the above cell, if E^@(Zn^(2+)|Zn)=-0.76V, E^@(Cu^(@+)|Cu)=+0.34V