The elevation in boiling point of a solution 13.44 g of `CuCl_2` in 1 kg of water using following information will be (molecular wt. of `CuCl_(2)=134.4, k_(b)` =0.52K/molal)

The elevation of boiling point for 1M urea, 1M glucose, 1M NaCl and 1M K_2SO_4 are in the ratio

The freezing point of a solution containing 0.1g of K_3[Fe(CN)_6] in 100 g of water. (K_f=1.86 K kg mol^-1) is

Calculate elevation in boiling point for 2 molal aqueous solution of glucose. (Given K_b(H_(2)O) = 0.5 kg mol^(-1) )

Calculate the boiling point of a solution prepared by adding 15.00 g of NaCl to 250.0 g of water. (K_b for water= 0.512 K kg mol^-1) and molar mass of NaCl= 58.44 g mol^-1

if the elevation in boiling point of a solution of non-volatile, non-electrolytic and non-associanting solute in solvent ( K_(b) =x K kg "mol"^(-1) )is yK,then the depression in freezing point of solution of same concentration would be ( K_(f) )of the sovent = zk.kg"mol"^(-1) )

Calculate the boiling point of solution when 2 g of Na_2SO_4 (M=142gmol^-1) was dissolved in 50 g of water, assuming Na_2SO_4 undergoes complete ionization. (K_b for water=0.52 K kg mol^-1) .

A 1.00 molal solution of trichloroacetic acid (CCCl_3COOH) is heated to its boiling point. The solution has the boiling point of 100.18^@C . Determine the Van't Hoff factor for trichloroacetic acid (K_b for water = 0.512 K kg mol^-1)

At 100^@C , the vapour pressure of a solution of 6.5 g of solute in 100 g of water is 732 mm. If k_b is 0.52 klm, the boiling point of solution will be: