An aqueous solution of `3.12g` of `BaCl_(2)` in `250g` of water is found to boil at `100.0832^(@)C`. Calculate the degree of dissociation of `BaCl_(2)`. Given that the value of `K_(b)(H_(2)O)=0.52 K//m`.

An aqueous solution of glucose containing 12g in 100g water was found to boil at 100.34^@ C. calculate K_b for water.

An aqueous solution of glucose containing 12 g in 100 g of water was found to boil at 100.34^(@)C . Calculate of K_(b) for water in K mol^(-1)Kg .

An aqueous solution of glucose containing 12 g in 100 g of water was found to boil at 100.34^(@)C . Calculate of K_(b) for water in K mol^(-1)Kg .

An aqueous solution of glucose containing 12 g in 100g of water was found to boil at 100.34^@C. Calculate K_b for water in K mol ""^(-1) kg.

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) ]

An aqueous solution containing 12.48 g of barium chloride in 1.0 kg of water boils at 373.08321K. Calculate the d.egree of dissociation of barium I chloride. (Given K_(b) , of H_(2)O = 0.52 K m^(-1) , molar mass of Ba CI_(2) = 208.34 g mol^(-1) ]