The specific conductance of a solution is `0.3568 " ohm"^(-1) cm^(-1)` when placed in a cell the conductance is `0.0268 " ohm"^(-1)`. The cell constant is

The specific conductance of a solution is 0.03568 ohm/cm and when placed in a cel, the conductance is 0.0268 per ohm. The cell constant is

The specific conductance of a solution is 0.356 ohm^-1 cm^-1 . The conductance of this solution in a cell was 0.0268 ohm^-1 . Calculate the cell constant.

Calculate the cell constant if the specific conductance of a Solution is 0.2 "ohm"^(-1)cm^(-1) and its conductance is 0.04 "ohm"^(-1) .

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

Calculate the cell constant if the specific conductance of a Solution 0.2 I "ohm"^(-1)cm^(-1) and its conductivity is 0.04 "ohm"^(-1) .

Area of each electrode of a conductivity cell is "1.25 cm"^(2) . The cell is filled with a solution of resistance of 160 ohm. If specific conductance of the solution is "0.016 ohm"^(-1)."cm"^(-1) , calculates the distance between the electrodes, and the cell constant.

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 a 0.1 N KCI solution at 25^@ C is 0.015 ohm^ (-1) cm^(-1) . The resistances of the cell containing the solution at the same temperature was found to be 60 Omega . The cell constant (in cm^(-1)) will be