If the observed and theoretical molecular mass of KCl is found to be 38.75 and 74.5, then the degree of dissociation of KCl is

The values of observed and calculated molecular weights of silver nitrate are 92.64 and 170 respectively. The degree of dissociation of silver nitrate is

Phenol associates in water to double molecules. The values of observed and calculated molecular weight of phenol are 161.84 and 94 , repectively. The degree of association of phenol will be a. 60% , b. 84% , c. 45% , d. 80%

The vlaue of observed and theoretical molecular masses of an electrolyte AB are 65.4 and 114.45 respectively. The electrolyte AB in the solution dissociates to the extent of :

The Van.t Hoff factor of 0.005M aqueous solution of KCl is 1.95. The degree of ionisation of KCl is

A 0.5 percent aqueous solution of KCl was found to freeze at 272.76K. Calculate the Van.t Hoff factor and degree of dissociation of the solute at this concentration (K_(f)" for water = 1.86 k.kg.mol"^(-1)) . Normal molar mass of KCl = 74.5.

A 0.5% aqueous solution of KCl was found to freeze at -0.24^(@)C . Calculate the Van,t Hoff factor and degree of dissociation of the solute at this concentration. ( K_(f) for water = 1.86 K kg mol ^(-1) )

x g of non-electrolytic compound (molar mass =200) is dissolved in 1.0 L of 0.05 M NaCl solution. The osmotic pressure of this solution is found to be 4.92 atm at 27^(@)C . Calculate the value of x . Assume complete dissociation of NaCl and ideal behaviour of this solution.

The Van't Hoff factor for 0.1 M Ba(NO_(3))_(2) solution is 2.74. The degree of dissociation is