A solution containing `0.11kg` of barium nitrate in `0.1kg` of water boils at `100.46^(@)C`. Calculate the degree of ionization of the salt. `K_(b)` (water)` = 0.52 K kg mol^(-1)`.

An aqueous solution containing 12.48g of barium chloride in 1.0 kg of water boils at 373.0832 K. Calculate the degree of dissociation of barium chloride. [Given K_(b) for H_(2)O =0.52 Km^(-1) , Molar mass of BaCl_(2) =208.34 "g mol"^(-1) ]

A solution containing 1.23g of calcium nitrate in 10g of water, boils at 100.975^(@)C at 760 mm of Hg. Calculate the vant Hoff factor for the salt at this concentration. ( K_(b) for water = 0·52" K kg mol"^(-1) , mol. wt. of calcium nitrate = 164" g mol"^(-1) ).

A solution of 2.44xx10^-3 kg of a nonelectrolyte solute dissolved in 0.075 kg of water boiled at 100.413^@C . Calculate the molecular mass of the solute. K_b for water = 0.52 K kg mol^-1

An aqueous solution sntaining 1.248 g of barium chloride ("molar mass"= 208.34 g mol^(-1)) in 100 g of water boils at 100-0832^(@)C . Calculate degree of dissoviation of barium of barum choride (K_(b)"for water"=0.52 K kg mol^(-1))

A 5 per cent aqueous solution by mass of a non-volatile solute boils at 100.15^(@)C . Calculate the molar mass of the solute. K_(b)=0.52 K kg "mol"^(-1) .

A 5 per cent aqueous solution by mass of a non-volatile solute boils at 100.15^(@)C . Calculate the molar mass of the solute. K_(b)=0.52 K kg "mol"^(-1) .