(a) Define molar conductivity of a substance and describe how for weak and strong electrolytes , molar conductivity changes with concentration of solute . How is such change explained ?
(b) A voltaic cell is set up at `25^(@)C` with the following half cells :
`Ag^(+) (0.001M)` | Ag and `Cu^(2+)(0.10 M)|Cu`
What would be the voltage of this cell ? `(E_("cell")^(@) = 0.46 V)`

A voltaic cell is set up at 25^(@)C with following half cells : Ag^(+)(0.001 M)|Ag and Cu^(2+)(0.10 M)|Cu What would be the voltage of this cell ? (E_(cell)^(@)=0.45 V)

Define molar conductivity of a solution and explain how molar conductivity changes with change in concentration of a solution for a weak and a strong electrolyte.

(a) State the relationship amongst cell constant of a cell , resistance of the solution in the cell and conductivity of the solution . How is molar conductivity of solute related to conductivity of its solution ? (b) A voltanic cell is set up at 25^(@)C with the following half-cells : Al|Al^(3+) (0.001M) and Ni|Ni^(2+) (0.50M) Calculate the cell voltage [ E_(Ni^(2+)|Ni)^(@) = -0.25V , E_(Al^(3+) |Al)^(@) = -1.66 V ]

The voltage for the cell Fe | Fe^(2+)(0.0010 M) || Cu^(2+)(0.10 M) | Cu is 0.807 V at 25^(@) C. What is the value of E^(@) ?

The e.m.f. of the cell Ti|Ti^(+)(0.001M)||Cu^(2+)(0.01M)|Cu is 0.83V the emf of this cell could b e increased by

(a) Define molar conductivity of a solution and explain how molar conductivity changes with change in concentration of solution for a weak and a strong electrolyte. (b) The resistance of conductivity cell containing 0.001 M KCl solution at 298 K is 1500 omega . What is the cell constant if the conductivity of 0.001 MKCl solution at 298 K is 0.146 xx 10^(-3) S cm^(-1)