Specific conductivity of a solution :

The molar conductivity of a saturated solution of BaCl_(2) is 10^(-12) ohm^(-1) cm^(2) mol^(-1) . If the value for specific conductivity of the solution is 10^(-14) ohm^(-1) cm^(-1) , the value for K_(sp) for BaCl_(2) is

The specific conductivity of 0.5N solution is 0.01287 ohm^(-1) cm^(-1) . What would be its equivalent conductance?

The specific conductance of a solution is 0.03568 ohm/cm and when placed in a cel, the conductance is 0.0268 per ohm. The cell constant is

The specific conductance of a solution is 0.3568 " ohm"^(-1) cm^(-1) when placed in a cell the conductance is 0.0268 " ohm"^(-1) . The cell constant is

For HCl solution at 25^(@)C, equivalent conductance at infinite dilution, is 425 "ohm"​^(-1) cm​^(2) "equiv"^(-1) ​. The specific conductance of a solution of HCl is 0.3825 "ohm​"^(-1) "​cm"​^(-1) ​. If the apparent degree of dissociation is 90% the normality of the solution is :-

The specific conductivity of a saturated solution of silver chloride at 18^(@)C is 1.24 xx 10^(-6) mho after subtracing that of water. Ionic conductances at infinite dilute of Ag^(+) and Cl^(-) ions at this temperature are 53.8 and 65.3 respectively. Calculate the solubility of silver chloride in gram per litre.