`Omega^(-1) cm^(-1)` is the unit of

If specific conductivity of N// 50 KCl solution at 298 K is 0.002765 Omega^(-1) cm^(-1) and resistance of a cell contaning this solution is 100 Omega , calculate the cell constant.

1 parsec in the unit of

Newton Kg^-1 is the unit of

The equivalent conductiviy of a solution containing 2.54 g of CuSO_(4) per L is 91.0 Omega^(-1) cm^(-1) or . Its conductivity would be

Which of the following solutions has larger molar conductance ? (i) 0.08 M solution having conductivity equal to 2.0 xx 10^(-2) Omega^(-1) cm^(-1) . (ii) 0.10 M solution having resistivity equal to 58 Omega cm.

The specific conductance of a decinormal solution of NaCl equals to 0.0092 Omega^(-1) cm^(-1) . If ionic conductance of Na^(+) and Cl^(-) ions are 43.0 and 65.0 Omega^(-1) respectively. Calculate the degree of dissociation of NaCl solution.

The Lambda_(m)^(@) values for NaCl and KCl are 126.5 and 149.9 Omega^(-1) cm^(2) "mol"^(-1) respectively. The ionic conductance of Na^(+) at infinite dilution is 50.1 Omega^(-1) cm^(2) "mol"^(-1) . Calculate the ionic conductance at infinite dilution for potassium ion ( K^(+)) .

At infinite dilution the molar conductance of Na^+ and SO_4^(2-) are 50 Omega^(-1) cm^2 mole^(-1) and 160 Omega^(-1) cm^2 mole^(-1) respectively. What will be the molar conductance of sodium sulphate at infinite dilution.