`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`

Two solutions of glucose have osmotic pressure 1.5 and 2.5 atm ,respectively. 1 L of first solution is mixed with 2 L of second solution. The osmotic pressure of the resultant solution will be a. 2.62 atm , b. 6.12 atm ,c. 3.26 atm , d. 2.16 atm

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 decimolar solution of urea at 27^(@)C is a. 2.49 bar, b.5 bar, c. 3.4 bar, d. 1.25 bar

20 g of a substance in 2 litre of solution at 10^@C produces an osmotic pressure of 0.68 atm, the mol. wt. of solute is

The osomotic pressure of a solution at 0^(@)C is 4 atm . What will be its osmotic pressure at 546 K under similar conditions? a. 4 atm , b. 9 atm ,c. 8 atm , d. 6 atm

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.

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

A 10 g mixture of glucose and urea present in 250 mL solution shows the osomotic pressure of 7.4 atm at 27^(@)C . Calculate % composition of mixture.

At 300 K , 36 g of glucose present per litre in its solution has an osmotic pressure of 4.98 bar . If the osmotic pressure of the solution is 1.52 bar at the same temperature, what would be its concentration?