The lowest boiling point, if concentration is fixed at 0.1 M in aqueous solution, is given by which of the following solutions?
a. K2SO4
b. NaCl
c. Urea
d. Glucose
1. a, b
2. b, c
3. c, d
4. d, a
A solution of 18 g of glucose in 1000 g of water is cooled to -0.2 oC. The amount of ice separating out from this solution is -
[Kf(H2O) = 1.86 K molal-1]
1. | 70 g | 2. | 140 g |
3. | 90 g | 4. | 210 g |
An aqueous solution of hydrochloric acid -
1. Obeys Raoult's law
2. Shows negative deviations from Raoult's law
3. Shows positive deviations from Raoult's law
4. Obeys Henry's law at all compositions
The vapour pressure of a pure liquid solvent A is 0.80 atm. When a non-volatile substance B is added to the solvent, its vapour pressure drops to 0.60 atm.
Mole fraction of the component B in the solution is:
1. | 0.50 | 2. | 0.75 |
3. | 0.40 | 4. | 0.25 |
Among the following options, 0.1 M aqueous solution that will have the lowest freezing point is-
1. | Potassium Sulphate. | 2. | Sodium chloride. |
3. | Urea. | 4. | Glucose. |
pH of a 0.1 (M) monobasic acid is 2. Osmotic pressure at a given temperature T is-
1. 0.1RT
2. 0.11RT
3. 1.1RT
4. 0.01RT
The relationship between osmotic pressure at 273 K, when 10 gm glucose (P1), 10 gm urea (P2), and 10 gm sucrose (P3) are dissolved in 250 ml of water, is-
1. P1 > P2 > P3
2. P3 > P1 > P2
3. P2 > P1 > P3
4. P2 > P3 > P1
If 'A' contains 2 % NaCl and is separated by a semi permeable membrane from 'B', which contains 10 % NaCl, then the event that will occur is
1. NaCl will flow from 'A' to 'B'
2. NaCl will flow from 'B' to 'A'
3. Water will flow from 'A' to 'B'
4. Water will flow from 'B' to 'A'
The mole(s) of K2SO4 to be dissolved in 12 moles of water to lower its vapor pressure by 10 mm of Hg at a temperature at which vapor pressure of pure water is 50 mm of Hg is :
1. | 3 mol | 2. | 0.5 mol |
3. | 1 mol | 4. | 2 mol |
The
salt that possesses the highest freezing point
1. 0.01 M NaCl
2. 0.05 M Urea
3. 0.01 M MgCl2
4. 0.02 M NaCl