6 g of a non-volatile, non-electrolyte X dissolved in 100 gm of water freezes at -0.93°C. The molar mass of X in g mol-1 is (Kf of H2O = 1.86 K kg mol-1).
60
140
180
120
The order of basic strength of the following in aqueous solution is
I. C6H5NH2
II. (CH3)3N
III. NH3
IV. CH3NH2
V. (CH3)2NH
IV > I > V > III > II
II > V > IV > III > I
V > IV > II > III > I
IV > III > V > II > I
Which one of the following solutions of compounds show highest osmotic pressure?[AB, AB2,A2B3 are ionic compounds]
5.0 M urea i= 10 and temperature is 67°C
1.5M A2B2 type i= 41 temperature is 27°C
3.0 M AB type i= 16 and temperature is 27°C
2.5 M AB2 type i = 2.5 and temperature is 57°C.
31g of ethylene glycol (C2H6O2) is dissolved in 600 g of water. The freezing point depression of the solution is (Kf for water is 1.86 K kg mol-1)
0.77 K
1.55 K
4.65 K
3.10 K
One mole of a solute A is dissolved in a given volume of a solvent. The association of the solute takes place according to nA [A]n. The van't Hoff factor (i) is expressed as:
i = 1 - x
i = 1 +
i =
i = 1
Freezing point of water is 0°C. At what temperature will one molal solution of NaCl freeze if NaCl is taken to be completely dissociated (molal depression constant of water = 1.86)?
-3.72°C
-1.86°C
0°C
3.72°C
A.
-3.72°C
Given,
Molality = 1 (m)
Kf = 1.86°C
tf = i × Kf . m
[For complete dissociation of NaCl value of i = 2]
tf = 2 × 1.86 × 1
= 3.72 °C
= T2 - T1
where, T2 = freezing point of solvent
T1 = freezing point of solution
3.72°C = 0°C - T1
T1 = -3.72 °C
Therefore, freezing point of solution = -3.72 °C.
The vapour pressure ofa pure liquid 'A' is 0.80 atm. When a non-volatile solute 'B' is dissolved in 'A' its vapour pressure becomes 0.60 atm. The mole fraction of 'B' in the solution is
0.125
0.25
0.50
0.75
Which of the following does not show negative deviation from Raoult's law?
Acetone -Chloroform
Acetone-Benzene
Chloroform- Ether
Chloroform- Benzene
50mL of benzene is mixed with 50mL of chloroform. What is the volume of solution?
Less than 100 mL
More than 100 mL
Equal to 100 mL
None of the above