At `18^(@)C`, the specific conductance of (N/10) KCl solution is `"0.0112 ohm"^(-1)."cm"^(-1)`. When a conductivity cell is filled with that solution, the resistance of the cell stands at 55 ohm. What is the cell constant of the cell?

The specific conductance of 0.01 (N) KCl solution at 25^(@)C, is "0.00140 ohm"^(-1)."cm"^(-1) . The same conductivity cell when filled with ((N)/(100))NaOH solution, the resistance of the solution was 14.8 ohm. If the resistance of the KCl solution is 25 ohm, what will be the equivalent conductivity of NaOH at 25^(@)C ?

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

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

The specific conductivity of 0.1 N kCl solution is 0.0129 ohm^(-1) cm^(-1) . The resistance of the solution in the cell is 100ohm . The cell constant of the cell is

A cell with N//50 KCl solution offered a resistance of 550 ohm at 298 K. The specific conductance of N//50 KCl at 298 K is 0.002768 ohm^(-1)cm^(-1) . When this cell is filled with N//10 ZnSO_(4) solution, it offered a resistance of 72.18 ohm at 298 K. Find the cell constant and molar conductance of ZnSO_(4) solution at 298 K.