The rise in boiling point of a solution containing `1.8g` glucose in `100g` of a solvent is `0.1^(@)C`. The molal elevation constant of the liquid is-

The increase in boiling point of a solution containing 0.6 gram Urea in 200 gram water is 0.50^@ C. Find the n-olal elevation constant

The molarity of a glucose solution containing 36g of glucose per 400mL of the solution is:

Calculate the boiling point of a solution containing 0.61 g of benzoic acid in 50 g of carbon disulphide assuming 84% dimerization of the acid. The boiling point and K_(b) of CS_(2) are 46.2^(@)C and 2.3 kg mol^(-1) .

The freezing point of a solution prepared from 1.25 g of non-electrolyte and 20 g of water is 271.9 K . If the molal depression constant is 1.86 K mol^(-1) , then molar mass of the solute will be

A dilute solution contains m mol of solute A in 1 kg of a solvent with molal elevation constant K_(b) . The solute dimerises in solution as 2A hArr A_(2) . Show that equilibrium constant for the dimer formation is K =(K_(b)(K_(b)m-DeltaT))/((2DeltaT_(b)-K_(b)m)^(2)) where DeltaT_(b) is the elevation of the boiling point for the given solution. Assume molarity = molarity

Calculate the molality of a solution containing 20g of sodium hydroxide (NaOH) in 250g of water ? .