If 1.71 g of sugar (molar mass=342) is dissoved in 500 `cm^(3)` of a solution at 300K. What will be its osmotic pressure?

The molal cryoscopic for water is 1.86 "K mol"^(-1) . When 3.42 g of sugar ( molar mass = 342) is dissolved in 100 g of water, the solution will freeze at

10 g of glucose (molar mass 180) and 20 g of sucrose (molar mass 342) are dissolved in 100 g of water. What will be the vapour pressure of the resultant solution if the vapour pressure of water is 30 mm Hg ?

x g of non-electrolytic compound (molar mass =200) is dissolved in 1.0 L of 0.05 M NaCl solution. The osmotic pressure of this solution is found to be 4.92 atm at 27^(@)C . Calculate the value of x . Assume complete dissociation of NaCl and ideal behaviour of this solution.

A solution of sucrose (molar mass =342) is prepared by dissolving 68.4 g in 1000 g of water. Calculate The osmotic pressure at 273 K.

An M/10 solution of potassium ferrocyanide is 46% dissociated at 300 K . What will be its osmotic pressure?

A 0.1 M solution of potassium sulphate K_(2)SO_(4) is dissolved to the extent of 80% . What would be its osmotic pressure at 27 (@)C .

A solution obtained by mixing 100 mL of 20% solution of urea (molar mass =60) and 100 mL of 1.6% solution of cane sugar (molar mass =342) at 300 K . (R=0.083 L bar K^(-1) mol^(-1) ). Calculate a.Osmotic pressure of urea solution b.Osmotic pressure of cane sugar solution c.Total osmotic pressure of solution

A solution of sucrose (molar mass =342) is prepared by dissolving 68.4 g in 1000 g of water. Calculate The vapour pressure of solution at 293 K is 0.023atm.

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