The solution containing `10 g` of an organic compound per litre showed an osmotic pressure of `1.18 atm` at `0^(@)C`. Calculate the molecular mass of the compound "(R=0.0821 litre atm per degree per mol)"

10g of an organic substance when dissolved in two litres of water gave an osmotic pressure of 0.59 atm, at 7^(@)C . Calculate the molecular weight of the substance.

The normality of a solution containing 60 g of CH_3COOH per litre is

0.6g of a solute is dissolved in 0.1 litre of a solvent which develops an osmotic pressure of 1.23 at m at 27^(@)C .The molecular mass of the substance is

A solution containing 6 g of a solute dissolved in 250 cm^(3) of water gave an osmotic pressure of 4.5 atm at 27^(@)C . Calculate the boiling point of the solution.The molal elevation constant for water is 0.52^@ C per 1000 g.

A solution containing 4 g of a non-volatile organic solute per 100 mL was found to have an osmotic pressure equal to 500 cm of mercury at 27^(@)C . The molecular weight of solute is

Acetone boils at 56.38^(@) C and a solution of 1.41 g of an organic compound in 20 g of acetone boils at 56.88^(@) C. Calculate the molar mass of the organic compound (Given k_(b) for acetone = 1.67 k kg/ mol).

The empirical formula of a non - electrolyte is CH_(2)O . A solution containing 6 g of the compound exerts the same osmotic pressure as that 0.05 M glucose solution at the same temperature. The molecular formula of the compound is

0.12 g of an organic compound gave on combustion 0.18 g of water and 0.11 g of CO_(2) . Calculate the percentage of C and H in the organic compound.