Calculate the osmotic pressure of a solution containing `0.02 mol` of `NaCl` and `0.03 mol` of glucose in `500 mL` at `27^(@)C`.

The osmotic pressure of a solution containing 0.1 mol of solute per litre at 273 K is

Calculate the osmotic pressure of a solution obtained by mixing 100 cm^(3) of 1.5% solution of urea (mol. Mass=60) and 100 cm^(3) of 3.42% solution by cane sugar (mol. Mass = 342) at 20^(@)C . (R=0.082 litre atm/deg/mole)

The molality of a solution containing 0.1 mol of a substance in 100g of water is :

The vapour pressure at a given temperature of an ideal solution containing 0.2 mol of non-volatile solute and 0.8 mol of a solvent is 60 mm of Hg . The vapour pressure of the pure solvent at the same temperature will be

The osmotic pressure of equimolar solutions of BaCl_(2) , NaCl ,and glucose follow the order

Two liquids A and B form an idea solution. What will be the vapour pressure at 27^(@)C of a solution having 1.5 mol of A and 4.5 mol of B ? The vapour pressure of A and B at 27^(@)c is 0.116 atm and 0.140 atm , respectively.

Calculate the vapour pressure of an aqueous solution of 1.0 molal glucose solution at 100^(@)C .

The osmotic pressure of a solution of 3.42 g sugar (molar mass 342) in 500 mL at 300 K will be

The osmotic pressure of a solution containing 5 g of substance (molar mass =100) in 308 m L of solution was found to be 4.0 atm at 300 K . Calculate the value of solution constant (R)