Specific conductance of 0.1 M sodium chloride solution is `1.06xx10^(-2)ohm^(-1)cm^(-1)`. Its molar conductance in `ohm^(-1)cm^(2)mol^(-1)` is

The specific conductance of a salt of 0.01M solution is 1.061xx10^(-4)ohm^(-1)cm^(-1) . Molar conductance of a same solution is ( in ohm^(-1)cm^(2)"mole"^(-1) )

Specific conductance of 0.1 M Nitric acid is 6.3 xx 10^(-2) "ohm"^(-1) cm^(-1) "mol"^(-1) The molar conductance of the solution is

The specific conductance of a saturated solution of a salt MX is 2.8 xx 10^(-7) Omega^(-1) cm^(-1) and the equivalent conductances at infinite dilution of M^(+1) and X^(-1) ions are 68 and 72 Omega^(-1) cm2 / equivalent respectively Hence, the K_(sp) of MX is found to be

At 25^@C , the specific conductance of 0.01 M alkaline earth metal chloride is 0.000158 "ohm"^(-1) cm^(-1) Calculate the equivalent conductance.

The conductivity of saturated solution of AgCl is found to be 1.86 xx 10^(-6) ohm^(-1)cm^(-1) and that of water is 6xx 10^(-8) ohm^(-1)cm^(-1) . If lamda^0 AgCl is

The specific conductance of 0.1N KCl solution at M 23^@C is 0.012 ohm^(-1)cm^(-1) . The resistance of cell containing the solution at the same temperature was found to be 55 ohm. The cell constant will be

The conductivity of 0.20M solution of KCl at 298 K is 0.0248S cm^(-1). Calculate molar conductance.

Equivalent conductance of saturated BaSO_4 is 400 ohm^(-1) cm^(2) "equiv"^(-1) and specific conductance is 8 xx 10^(-5) ohm^(-1), cm^(-1) . Hence K_(sp) of BaSO_4 is