The resistance of `0.1N` solution of formic acid is `200 ohm` and cell constant is `2.0 cm^(-1)`. The equivalent conductivity ( in `Scm^(2) eq^(-1))` of `0.1N` formic acid is `:`

The resistance of 0.1N solution of acetic acid 250 ohm. When measured in a cell constant 1.15 cm^-1 . The equilvalent conductance (in ohm^-1 cm^2 eq^-1 ) of 0.1 N acetic acid is

Resistance of 0.1 M KCl solution in a conductance cell is 300 ohm and conductivity is 0.013 Scm^(-1) . The value of cell constant is :

The compound whose 0.1 M solution is acidic :

The conductivity of 0.1 n NaOH solution is 0.022 S cm^(-1) .When equal volume of 0.1 N HCl solution is added, the conductivity of resultant solution is decreased to 0.0055 S cm^(-1) . The equivalent conductivity of NaCl solution 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 resistance of a conductivity cell containing 0.001M KCl solution at 298K is 1500 Omega . What is the cell constant ( in mm^(-1) ) if the conductivity of 0.001M KCl solution is 2xx10^(-3)Smm^(-1)

The resistance of a 0.5 M solution of an electrolyte in a conductivity 'cell was found to be 25 ohm. Calculate the molar conductivity of the solution, if the electrodes in the cell are 1.6 cm apart and have an area of 3*2cm^(2) .

The resistance of a conductivity cell with 0.1 M KCl solution is found to be 200 ohm at 298K. When the same cell was filled with 0.02 M NaCl solution, the resistance at the same temperature is found to be 1100 ohm . Calculate: the cell constant of the cell in m^-1 . Given conductivity of 0.lM KCl is 1.29 Sm^(-1) ]