The molar conductivity of 0.05 M solution of weak acid is `16.6Omega^(-1)cm^(-2)mol^(-1).` Its molar conductivity at infinite dilution is `390.7Omega^(-1)cm^(-2)mol^(-1)`. The degree of dissociation of weak acid is

The dissociation constant of n-butyric acid is 1.6 xx 10^(-5) and the molar conductivity at infinite dilution is 380 xx 10^(-4) Sm^(2) mol^(-1) . The specific conductance of the 0.01M acid solution is

A sample of water from a large swimming pool has a resistance of 10000Omega at 25^(@)C when placed in a certain conductance cell. When filled with 0.02M KCl solution, the cell has a resistance of 100 Omega at 25^(@)C, 585 gm of NaCl were dissolved in the pool, which was thoroughly stirred. A sample of this solution gave a resistance of 8000 Omega . Given: Molar conductance of NaCl at that concentration is 125 Omega^(-1) cm^(2) mol^(-1) and molar conductivity of KCl at 0.02 M is 200Omega^(-1) cm^(2) mol^(-1) . Volume (in Litres) of water in the pool is:

The equivalent conductivity of CH_(3)COOH at 25^(@)C is "80 ohm"^(-1) cm^(2) eq^(-1) and at infinite dilution 400" ohm"^(-1)" cm"^(2) eq^(-1) . The degree of dissociation of CH_(3)COOH is ...............

A sample of water from a large swimming pool has a resistance of 10000Omega at 25^(@)C when placed in a certain conductace cell. When filled with 0.02M KCI solution, the cell has a resistance of 100 Omega at 25^(@)C, 585 gm of NaCI were dissolved in the pool, which was throughly stirred. A sample of this solution gave a resistance of 8000 Omega . Given: Molar conductance of NaCI at that concentration is 125 Omega^(-1) cm^(2) mol^(-1) and molar conductivity of KCI at 0.02 M is 200W^(-1) cm^(2) mol^(-1) . Cell constant (in cm^(-1)) of conductane cell is: