At ` 25^@ C` specific conductivity of a normal solution of ` KCl` is ` 0. 0022765` ohm. The resistance of cell is `400` ohms. The cell constant is

Resistance of a conductivity cell filled with 0.1 M KC1 solution is 100 ohm. If the resistance of the same cell when filled with 0.02 M KC1 solution is520 ohms, calculate the conductivity and molar conductivity of 0.02 M KC1 solution. The conductivity of 0.1molL^(−1) KCl solution is 1.29×10 ^(−2) Ω ^(−1) cm ^(−1) .

The resistance of a solution is 5 xx 10^3 ohm. Find the conductance of the solution.

If the specific conductivity of 0.04 M electrolytic solution is 0.0649 Omega^(-1)m^(-1) , calculate its molar conductivity.

The cell constant of a conductivity cell

A conductivity cell filled with 0.01M KCl gives at 25^@C gives the resistance of 604 ohms. The conductivity of KCl at 25^@C is 0.00141Omega^(-1) 1cm^(-1) . The same cell filled with 0.001M AgNO_3 gives a resistance of 6529 ohms. Calculate the molar conductivity of 0.001M AgNO_3 [Conductivity of 0.01M KCl at 25^@C is 0.00141 Omega^(-1) cm^(-1) ]

Two electrodes are fitted in conductance cell 1.5 cm apart while the area of cross-section of each electrode is 0.75 cm^(2) . The cell constant is

Specific conductance of 0.1M nitric acid is 6.3xx10^(-2)ohm^(-1)cm^(-1) . The molar conductance of the solution is:

A conductivity cell dipped in 0.01 M AgNO_3 solution at 25^@C gives a resistance of 1442 ohms. If the molar conductivity of 0.01M AgNO_3 solution is 124.8 Omega^(-1) cm^2 mol^(-1) , what is the cell constant?