The elevation in boiling point of a solution of 13.44 g of `CuCl_2` in 1 Kg of water using the following information will be:
(Molecular weight of `CuCl_2=134.4` and `K_b=0.52 K molal^-1)`

The elevation in boiling point, when 13.44 g.of freshly prepared CuCl_2 , are added to 1 kg of water is [some useful data, K_b (H_2O) = 0.52 kg K mol^-1 and M.W of CuCl_2 = 134.4 g]

Calculate elevation in boiling point for 2 molal aqueous solution of glucose. (Given : k_b(H_2O) = 0.5 K kg. mol^(-1))

A solution contains 5.6 gm of glucose in 1000 gm of water. Calculate the boiling point of the solution. ( k_b for water = 0.52 K kg mol^-1 )

At 100^@C the vapour pressure of a solution of 6.5 g of a solute in 100 g water is 732 mm. If K_b = 0. 52, the boiling point of this solution will be.

The elevation of boiling poin is 0.70K when 12.5gm of a non electrolyte gets dissolved in 175 gm of water. Cacluate mole mass of the substance K_b =52K Kg mol^(-1)

The boiling point of a solution containing 1.5 g of dichlorobenzene in 100 g of benzene was higher by 0.268^@C . Calculate the molar mass of dichlorobenzene. K_b forbenzene = 2.42 K kg mol^-1

At 100^(@)C the vapour pressure of a solution of 6.5 g of a solute in 100 g water is 732 mm. If k_(b) = 0.5 , the boiling point of this solution will be -

Calculate the elevation of boiling point of water when 0.6 gm urea is dissolved in 250 ml water given [ K_b 0.52 k.kg mol^(-1) ]

(K_p)/(K_c) for following reaction will be- CO(g) + 1/2O_2(g)toCO_2(g)

A solution containing 0.5 g of naphthalene in 50 g C Cl_4 yield a boiling point elevation of 0.4 k, while a solution of 0.6 g of an unknown solute in the same mass of the solvent gives a boiling point elevation of 0.65 k. Find the molar mass of the unknown solute.