`{:("Electrolyte",^^.^(oo)(Scm^(2)mol^(-1))),(KCl,149.9),(KNO_(3),145.0),(HCl,426.2),(NaOAc,91.0),(NaCl,126.5):}`
Calculate `^^_(HOAc)^(oo)` using appropriate molar conductance of the electrolytes listed above at infinite dilution in `H_(2)O` at `25^(@)C`

{:("Electrolyte",^^.^(oo)(Scm^(2)mol^(-1))),(KCI,149.9),(KNO_(3),145.0),(HCI,426.2),(NaOAC,91.0),(NaCI,126.5):} Calculate ^^_(HOAc)^(oo) using appropriate moalr conductances of the electrolytes listed above at infinite dilution in H_(2)O at 25^(@)C

For strong electrolytes the values of molar conductivities at infinite dilution are given below {:("Electrolyte",^^_(m)^(@) (Sm^(2 mol^(-1))),(BaCl_(2),280 xx 10^(-4)),(NaCl,126.5 xx 10^(-4)),(NaOH,48 xx 10^(-4)):} The molar conductance at infinite dilution for Ba(OH)_(2) is

The molar conductance of CH_(3)COOHNa HCI and NaCI at infinite dilutions are 91.0, 426.0 and 126.0 ohm^(-1) cm^(-1) respectively. Calculate the molar conductence of acetic acid at infinie dilution.

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?