The elevation in boilng point of a solution of 13.44 g of `CuCl_(2) ` 1 kg of water will be _____.
(Molecular mass of `CuCl_(2) = 134.4 and K_(b) =0.52 km^(-1))`

The elevation in boiling point of a solution of 9.43 g of MgCl_2 in 1 kg of water is ( K_b = 0.52 K kg mol^(-1) , Molar mass of MgCl_2 = 94.3 g mol^(-1) )

The elevation in boiling point of a solution of 10g of a binary electrolyte (molecular mass 100) in 100g of water is DeltaT_(b) . The value of K_(b) for water is :

The elevation in boiling point of a solution of 13.44 g of CuCl_(2) (molecular weight = 134.4,k_(b)=0.52K "molality"^(-1)) in 1 kg water using the following information will be:

Calculate the freezing point depression and boiling point elevation of a solution of 10.0 g of urea (M_(B)=60) in 50.0 g of water at 1 atm . pressure. K_(b) and K_(f) for water 0.52^(@)C m^(-1) and 1.86^(@)C m^(-1) respectively.

The elevation in boiling point, when 13.44 g of freshly prepared CuCI_(2) are added to one kilogram of water, is [Some useful data, K_(b) (H_(2)O) = 0.52 kg K mol^(-1), "mol.wt of" CuCI_(2) = 134.4 gm]

The elevation in boiling point, when 13.44g of freshly prepared CuCl_(2) are added to one kilogram of water, is [Some useful data, K_(b)(H_(2)O)=0.52"kg K mol"^(-1),"mol.wt. of CuCl"_(2)=134.4gm]