At `18^(@)C` the mobilities of `NH_(4)^(+)` and `CIO_(4)^(-)` ions are `6.6 xx 10^(-4)` and `5.7 xx 10^(-4)cm^(2)"volt"^(-1)sec^(-1)` at infinite dilution. Calculate equivalent conductance of ammonium chlorate solution.

The equivalent conductances of an infinitely dilute solution NH_(4)CI is 150 and the ionic conductances of OH^(-) and CI^(-) ions are 198 and 76 respectively. What will be the equivalent conductance of the solution of NH_(4)OH at infinite dilution. if the equivalent conductance of a 0.01N solution NH_(4)OH is 9.6, what will be its degree of dissociation.

At 25^(@)C the equivalent conductance of butanoic acid at infinite dilution is 386.6 ohm^(-1)cm^(2)eq^(-1) . If the ionization consatant is 1.4xx10^(-5) , calculate equivalent conductance of 0.05 N butanoic acid solution at 25^(@)C(ohm^(-1)cm^(2)eq^(-1)) ?

The equivalent conductance of an infinitely dilute solution of NH_(4)Cl is 150 and te ionic conductance of OH^(-) ad Cl^(-) ions are 198 and 76 respectively. What will be the equivalent conductance of the solution of NH_(4)OH at infinite dilution. if the equivalent conductance of a 0.01 N solution NH_(4)OH is 9.6, what will be its degree of dissociation?

The molar conductance of NaCl vauies with the concentration as shown in the following table. And all values follows the equation lambda_(m)^(C)=lambda_(m)^(oo)-bsqrtC Where lambda_(m)^(C) = molar specific conductance lambda_(m)^(oo) =molar specific conductance at infinite dilution C = molar concentration {:("Molar concentration","Molar conductance of NaCl in ohm"^(-1)"cm"^(2)"mole"^(-1)),(4xx10^(-4),107),(9xx10^(-4),97),(16xx10^(-4),87):} When a certain conductivity cell (C) was filled with 25xx10^(-4)(M) NaCl solution. The resistance of the cell was found to be 1000 ohm. At Infinite dilution, conductance of CI^(-) and SO_(4)^(-2) are 80 ohm^(-1)cm^(2)"mole"^(-1) and 160 ohm^(-1)cm^(2)"mole"^(-1) respectively. What is the molar conductance of NaCl at infinite dilution?

The specific conductance of a 0.12 N solution of an electrolyte is 2.4xx10^(-2) S cm^(-1) . Calculate its equivalent conductance.

Conductivity of 0.12 M CuSO_(4) solution at 298 K is 1.8 xx 10^(-2) S cm^(-1) Calculate its equivalent conductivty