Molar conductivity of a solution of an electrolyte `AB_3` is 150`Scm^2mol^(-1)` . If it ionises as `AB_(3)toA^(3+)+3B^(-)`, its equivalent conductivity will be :

The molar conductivity of 1.5 M solution of an electrolysis is found to be 138.9 S cm^2 mol^-1 . Calculate the conductivity of this solution?

The molar conductivity of 0.04 M solution of MgCl_2 is 200 Scm^2mol^(-1) at 298 k. A cell with electrodes that are 2.0 cm^2 in surface area and 0.50cm apart is filled with MgCl_2 solution. Conductance of MgCl_2 solution is :

Molar conductivity of aqueous solution of HA is 200Scm^(2)mol^(-1),pH of this solution is 4 Calculate the value of pK_(a)(HA) at 25^(@)C . Given ^^_(M)^(oo)(NaA)=100scm^(2)mol^(-1), ^^_(M)^(oo)(HCl)=425Scm^(2)mol^(-1), ^^_(M)^(oo)(NaCl)=125 Scm^(2)mol^(-1)

Resistance of a conductivity cell filled with a solution of an electrolyte of concentration 0.1M is 100 Omega . The conductivity of this solution is 1.29Sm^-1 . Resitance of the same cell when filled with 0.2 M of the same solution is 520Omega . The molar conductivity of 0.2 M solution of the electrolyte will be

The molar conductivity of a 0.5 mol/dm3 solution of AgNO3 with electrolytic conductivity of 5.76 x 10-3 S cm-1 at 298 K is

The resistance of 0.5N solution of an electrolyte ina conductivity cell was found to be 25Omega . Calculate the equivalent conductivity of the solution if the electrodes in the cell are 1.6cm apart & having an area of cross section 3.2cm^(2)

The conductivity of a solution containing 1.0 g of anhydrous BaCl_2 in 200 cm^3 of the solution has been found to be 0.0058 S cm^-1 . Calculate the molar conductivity and equivalnet conductivity of the solution.

The molar conductivity at infinite dilution of Al_2(SO_4)_3 is 858S cm^2 mol^-1 . Caclulate the molar ionic conductivity of Al^(3+) ion given that lambda^@(SO_4^(2-))=160 S cm^2 mol^-1 .

If limiting molar conductivity of Ca^(2+) and Cl^(-) are 119.0 and 76.3 S cm^2 mol^(-1) , then the value of limiting molar conductivity of CaCl_2 will be :