Using a conductivity cell with `"0.9 cm"^(-1)` cell constant, the conductance was observed to be `2.5 xx 10^(-3)" mho for 0.07 M KCl"` solution. What is the specific conductance of the solution ?

Specific conductance of "1 M KNO"_(3) solution is observed to be 5.55 xx 10^(-3)" mho.cm"^(-1) . What is the equivalent conductance of KNO_(3) when one litre of the solution is used ?

Write the relation between specific conductivity and cell constant of a solution.

0.1 M solution is present in a conductivity cell wich electrode of 100cm^(2) area placed 1 cm apart and resistance observed is 5xx10^(3) ohm. What is the molar conductivity of this solution?

Arrange the following solutions in order of decreasing specific conductance: (i) 0.01 M NaCl (ii) 0.05 M NaCl (iii) 0.1 M NaCl (iv) 0.5 M NaCl Resistance of a conductivity cell filled with 0.1 M KCl solution is "80 ohm" . The conductivity cell has a cell constant of "1.0 cm"^(-1) . Find out the molar conductance of the KCl solution.

Arrange the following solution in order of decreasing specific conductance : (i) 0.01 M NaCl (ii) 0.05M NaCl (iii) 0.1 M NaCl (iv) 0.5M NaCl Resistance of a conductivity cell filled with 0.1 M KCl solution is 80 ohm. The conductivity cell has a cell constant of 1.0 cm^(-1) . Find out the molar conductance of the KCl solution.

The cell constant of a conductivity cell is "0.228 cm"^(-1) . If the cell is filled with "0.005 (N) K_(2)SO_(4) solution, the resistance recorded is 326 ohm at 25^(@)C . What will be (i) the specific conductance and (ii) the equivalent conductivity of the solution?

At a definite temperature, with the same conductivity cell, the specific conductance of "0.01 N KCl" and "0.01 N NaCl" solutions are "y ohm"^(-1)."cm"^(-1) and "z ohm"^(-1)."cm"^(-1) respectively. If the conductance of KCl solution is "x ohm"^(-1) , what will be the conductance of NaCl solution?

A conductivity cell when filled with "0.1 N KCl" at 25^(@)C the resistance becomes 307.62 ohm at the same temperature. At 25^(@)C , the specific conductance of 0.1 N KCl solution is "0.01286 ohm"^(-1)."cm"^(-1) . From these data calculate (1) cell constant (2) equivalent conductance of "0.1 N AgNO"_(3) solution and ressistance 362.65 ohm.

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.