1.0 molal aqueous solution of an electrolyte `X_(3)Y_(2)` is 25% Ionised. The boiling point in the solutioin is (`K_(b)` for `H_(2)O=0.52K` kg mol)

0.2 molal aqueous solution of acid HX is 20% ionised. K_f="1.86 K molal"^(-1) . The freezing point of the solution is very close to:

A 0.10 M aqueous solution of a monoprotic acid ("d=1.01 g/cm"^3) is 5% ionized. What is the freezing point of the solution? The mol.wt. of the acid is 300 and K_f (H_(2)O)="1.86"^@C//m:

When 1 mole of a solute is dissolved in 1 kg of H_(2)O , boilling point of solution was found to be 100.5^(0)C . K_(b) for H_(2)O is

1.0 g of a weak monobasic acid HA in 100 g water lowers the freezing point by 0.155 K. If 0.45 g, of same acid requires 15 mL of N/5 NaOH solution for complete neutralistion then %, degree ofionization of acid is (K_f " of H"_(2)O="1.86 K kg mol"^(-1)) . a)0.2 b)0.25 c)0.4 d)0.5

A scientist wants to perform an experiment in aqueous solution in a hill station where the boiling point of water is 98.98^(@)C . How much urea (mol.wt 60 g mol^(-1) ) is to be added by him to 2 kg of water to get the boiling point 100^(@)C at the same place? ( K_(b) ofwater = 0.51K kg mol^(-1) )

The relative decrease in the vapour pressure of an aqueous solution containing 2 mol [Cu(NH)_3CI]Cl in 3 mol H_2O is 0.50. On reaction with AgNO_3, this solution will form a)1 mol AgCl b)0.25 mol AgCl c)2 mol AgCl d)0.40 mol AgCl