A 250 mL water solution containing 48g of sucrose (molecular mass = 342) at 300K is separated from pure water by means of a semipermeable membrane. What pressure must be applied on solution as to prevent osmosis ?

A 250 mL water solution containing 48g of sucrose (molecular mass = 2242) at 300K is separated from pure water by means of a semipermeable membrane. What pressure must be applied on solution as to prevent osmosis ?

A 250 mL water solution containing 8.19 g of sodium chloride at 300 K is separated from pure water by means of a semi-permeable membrane. The pressure that must be applied above this solution in order to just prevent osmosis is "( R=0.0821 L atm mol^(-1) K^(-1) )" a.13.80 atm ,b.27.58 atm ,c.23.34 atm ,d.9.80 atm

At 300K , two solutions of glucose in water of concentration 0.01M and 0.001M are separated by semipermeable membrane. Pressure needs to be applied on which solution, to prevent osmosis? Calculate the megitude of this applied pressure?

A solution containing 7.5g of urea (molecular mass = 60) in 1kg of water freezes at the same temperature as another solution containing 15g of solute 'A' in the same amount of water. Calculate molar mass of 'A'.

A solution of sucrose (molar mass =342) is prepared by dissolving 688.4 g in 1000 g of water. Calculate The osmotic pressure at 273 K.

Statement Reverse osmosis is used to purify saline water. Explanation Solvent molecules pass from concentrate solution to dilute solution through semipermeable membrane if high pressure is applied on solution side.