A tube of uniform cross-sectional area `1 cm^(2)` is closed at one end with semi-permeable membrane. A solution of `5 g` glucose per `100 mL` is placed inside the tube and is dipped in pure water at `27^(@)C`. When equilibrium is established, calculate:
a. The osmotic pressure of solution.
b.The height developed in vertical column.
Assume the density of final glucose solution `1 g mL^(-1)`

Osmotic pressure of solution (density is 1 g/ml) containing 3g of glucose(molecular weight=180 g) in 60 g of water at 15^(@)C is

A solution of an organic compound is prepared by dissolving 30 g in 100 g water. Calculate the molecular mass of compound and the osmotic pressure of solution at 300 K , when the elevation in boiling point is 0.52 and K_(b) for water is 0.52 K m^(-1) .

10.0 g of glucose (pi_(1)) , 10.0 g of (urea (pi_(2)) , and 10.0 g of sucrose (pi_(3)) are dissolved in 250.0 mL of water at 273 K (pi= "osmotic pressure of a solution") . The relationship between the osmotic pressure of the solutions is

18 g glucose and 6 g urea are dissolved in 1 L aqueous solution at 27^(@)C . The osmotic pressure of the solution will be a. 8.826 atm , b. 4.926 atm ,c. 2.92 atm , d. 4.42 atm

Blood freezes at 272.44 K and a solution of 3.0 g of urea in 250 g of water freezes at 272.63 K . Calculate the osmotic pressure of blood at 300 K . (Assume density of blood at 300 K to be 1 g c c^(-1) )

A solution is prepared by dissolving 1.08 g of human serum albumin, a protein obtained from blood plasma, in 50 cm^(3) of aqueous solution. The solution has an osmotic pressure of 5.85 mm Hg at 298 K . a. What is the molar mass of albumin ? b. What is the height of water column placed in solution ? d_((H_(2)O)) =1 g cm^(-3)

A 0.1 M solution of glucose (molecular weight 180 g "mol"^(-1) ) and a 0.1 M solution of urea (molecular weight 60 g "mol"^(-1) ) are placed on the two sides of a semi-permeable membrane to equal heights. In this context, which of the following statements is correct? a. Glucose will flow across the membrane into the urea solution. b. Urea will flow across the membrane into the glucose solution. c. Water will flow across the membrane from the urea solution into the glucose solution. d. There will be no net movement across the membrane.

(a) What type of deviation is shown by a mixture of ethanol and acetone 7 Give reason. (b) A solution of glucose (molar mass = 180 g mol^(-1) ) in water is labelled as 10% (by mass). What would be the molallty and molarity of the 90lution ? (Density of solution = 1.2 g mL^(-1) .)

(a) Define the following terms : (i) Ideal solution (ii) Azeotrope (iii) Osmotic pressure (b) A solution of glucose (C_(6)H_(12)O_(6)) in water is labelled as 10% by weight. What would be the molality of the solution ? (Molar mass of glucose = 180 g mol^(-1))

A solution was prepared by dissolving 6.0 g an organic compound in 100 g of water. Calculate the osmotic pressure of this solution at 298 K ,when the boiling point of the Solution is 100.2^(@)C . ( K_(b) for water = 0.52 K m^(-1) ), R=0.082 L atm K^(_1) mol^(-1) )