Dissolution of 1.5 g of a non-volatile solute (mol. wt. = 60) in 250 g of a solvent reduces its freezing point by 0.01 °C. Find the molal depression constant of the solvent.
0.01
0.001
0.0001
0.1
If M, W and V represent molar mass of solute, then mass of solute and volume of solution in litres respectively, which among following equations is true?
Which of the following compounds has highest boiling point?
Propan-1-ol
n-butane
Chloroethane
Propanal
van't Hoff factor of centimolal solution of K3[Fe(CN)6] is 3.333. Calculate the per cent dissociation of K3[Fe(CN)6].
33.33
0.78
78
23.33
The osmotic pressure of solution containing 34.2 g of cane sugar (molar mass = 342 g mol-1) in 1 L of solution at 20°C is (Given R = 0.082 L atm K-1 mol-1)
2.40 atm
3.6 atm
24 atm
0.0024 atm
Solubility product (Ksp) of saturated PbCl2 in water is 1.8 × 10-4 mol3 dm-9. What is the concentration of Pb2+ in the solution?
(0.45 × 10-4)1/3 mol dm-3
(1.8 × 10-4)1/3 mol dm-3
(0.9 × 10-4)1/3 mol dm-3
(2.0 × 10-4)1/3 mol dm-3
The freezing point of equimolal solution will be highest for
C6H5NH3Cl
D- fructose
AgNO3
Ca(NO3)2
One mole of an unknown compound was treated with excess water and resulted in the evolution of two moles of a readily combustible gas. The resulting solution was treated with CO2 and resulted in the formation of white turbidity. The unknown compound is
Ca
CaH2
Ca(OH)2
Ca(NO3)2
If the boiling point difference between that two liquids is not much, the ............ method is used to separate them
Simple distillation
Distillation under reduced pressure
Steam distillation
Differential extraction
D.
Differential extraction
When difference in boiling points between the two liquids is not much, differential extraction is the most suitable method to separate them. The liquid with lower density floats over the liquid having higher density, thus can be easily separated.