The osmotic pressure of a solution is `1.3 atm`. The density of solution is `1.3 g cm^(-3)`. Calculate the osmotic pressure rise. (`1 atm =76 cm Hg`,`d_(Hg)=13.6 g cm^(-3)`)

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

The osmotic pressure of a solution at 273 K is 2.5 atm. The osmotic pressure of the same solution at 273^(@)C is :

The osmotic pressure of a 3.5% solution of cane sugar at 150^(@)C is :

Osmotic pressure of a sugar solution at 24^(@)C is 2.5 atm. The concentration of the solution in gm mole per litre is :

The osmotic pressure of 0.1 M glucose and 0.1 M sucrose solution are the same because

200 cm^(3) of an aqueous solution of a protein contains 1.26 g of protein. The osmotic pressure of such a solution at 300 K is found to be 2.57 xx 10^(-3) bar. Calculate the molar mass of the protein. (R = 0.083 L bar "mol"^(-1)K^(-1) )

The volume of 50 g of a substance is 20 cm^(3). if the density of water is 1 g cm^(-3) , will the substance float or sink?

At 10^(@)C , the osmotic pressure of urea solution is 500 mm .The solution is diluted and the temperature is raised to 25^(@)C .when the osmotic pressure is found to be 105.3 mm . Determine the extent of dilution.