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)

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

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

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

The osmotic pressure of a solution containing 40 g of solute ("molecular mass 246") per litre at 27^(@)C is (R=0.0822 atm L mol^(-1))

The osmotic pressure of a solution was found to be 8 atm when 8 mol of a non-volatile solute was dissolved in V L of solution at 300 K .Calculate the volume of solution (R=0.0821 L-"atm" K^(-1) "mol"^(-1))

Osmotic pressure of a solution containing 7 g of a protein present in deciliter of a solution is 3.3xx10^(-2) bar at 37^(@)C . Calculate the molar mass of protein.

Calculate the osmotic pressure of 5% solution of cane sugar (sucrose) at 300 K .

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