Molar conductivity at infinitre dilution of KCl,HCl and `CH_3COOK` are 0.013,0.038 and 0.009 `Sm^2mol^(-1)` respectively at 291K. If conductivity of 0.001M `CH_3COOH` is `2.72xx10^(-3)Sm^(-1)` then find % degree of dissociation of `CH_3COOH`
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The molar conductivities at inifinite dilution for NaI, CH_3COONa and (CH_3COO)_2 Mg are 12.69, 9.10 and 18.78 Sm^2 mol^-1 respectively at 25^@C . What is the molar conductivity of Mgl_2 at infinite dilution?
The molar conductivity at infinite dilution of HCl, KCl and CH_2ClCOOK are 4.26xx10^-2 , 1.50xx10^-2 and 1.13xx10^-2 S m^2 mol^-1 respectively. Calculate the molar conductivity at infinite dilution for monochloro acetic acid (CH_2ClCOOH) .
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The Van't Hoff factor for 0.1 M Ba(NO_3)_2 solution is 2.74. the degree of dissociation is
The resistance of a conductivity cell containing 0.001M KCl solution at 298K is 1500 Omega . What is the cell constant ( in mm^(-1) ) if the conductivity of 0.001M KCl solution is 2xx10^(-3)Smm^(-1)
If limiting molar conductivity of Ca^(2+) and Cl^(-) are 119.0 and 76.3 S cm^2 mol^(-1) , then the value of limiting molar conductivity of CaCl_2 will be :
