A solution containing 0.52 g of `C_(10)H_(8)` in 50g `CCl_(4)` produced an elevation in boiling point of `0.402^(@)C`. On the other hand a solution of 0.62 g of an unknown solute dissolved in same amount of `CCl_(4)` produced an elevation of `0.65^(@)C`. Molecular mass of solute is :

(a) A solution containing 0.5g of naphithalene in 50g C Cl_(4) yield a boiling point elevation of 0.4K , while a solution of 0.6g of an unknown solute in the same mass of the solvent gives a boiling point elevation of 0.65K . Find the molar mass of the unknown solute. (b) The boiling point of a solution of 0.1g of a substance in 16g of ether was found to be 0.100^(@)C higher that of pure ether. What is the molecular mass of the substance. K_(b) (ether) =2.16K kg "mol"^(-1)

A solution containing 0.2563 g of naphthalene (molecular mass = 128) in 50 g of carbon tetrachloride yields a boling point elevation of 0.201^(@)C while a solution of 0.6216 g of an unknown solute in the same mass of the solvent gives a boiiling point elevation of 0.647^(@)C . Find the molecular mass of unknown solute.

12g of a nonvolatile solute dissolved in 108g of water produces the relative lowering of vapour pressure of 0.1 . The molecular mass of the solute is

If for a sucrose, elevation in boiling point is 1.0^(@)C , then what will be the boiling point of NaCl solution for same molal concentration?

When 10 of a non-volatile solute is dissolved in 100 g of benzene . It raises boiling point by 1^(@)C then moles mass of the solute is ______.

0.9 g urea when dissolved in 45 g water caused elevation of 0.17^(@)C in b.p. Calculate molecular elevation constant of water.

0.9 g urea when dissolved in 45 g water caused elevation of 0.17^(@)C in b.p. Calculate molecular elevation constant of water.

A solution of 0.450g of urea (mol.wt 60) in 22.5g of water showed 0.170^(@)C of elevation in boiling point, the molal elevation constant of water:

Elevation in boiling point was 0.52^(@)C when 6 g of a compound X was dissolved in 100 g of water. Molecular weight of X is ( K_(b) of water is 5.2^(@)C per 100 g of water)

An aqueous solution of 0.01 m KCl cause the same elevation in boiling point as an aqueous solution of urea. The concentration of urea solution is :