The relative lowering of vapor pressure upon dissolving a non-volatile solute in a solvent is equal to:
1. Mole fraction of the solute
2. Mole fraction of the solvent
3. Concentration of the solute in grams per liter
4. Concentration of the solute in grams per 100 mL
Van't Hoff factor is
(1) More than one in case of association
(2) Less than one in case of dissociation
(3) Equal to
(4) Equal to
Which of the following changes would result in greater solubility of a gas in a liquid?
1. | Increasing temperature |
2. | Increasing the amount of liquid |
3. | Decreasing temperature |
4. | Reducing gas pressure |
Which of the following solution would exhibit abnormal colligative properties?
1. 1 M glucose
2. 0.1 M NaCl
3. 0.1 M sucrose
4. 10 gram glass powder in water
The number of moles of sodium hydroxide present in 2.5 L and 0.5 M aqueous solution will be
(1) 1.25
(2) 0.5
(3) 12.5
(4) 5
Maximum freezing point will be for 1 molal solution of assuming equal ionization in each case:
(1) [Fe(HO)]Cl
(2) [Fe(HO)Cl] Cl.HO
(3) [Fe(HO)Cl]Cl.2HO
(4) [Fe(HO)Cl].3HO
The solution which has the lowest freezing point is
(1) 0.1 M potassium nitrate
(2) 0.1 M aluminium sulphate
(3) 0.1 M potassium chloride
(4) 0.1 M potassium sulphate
The vant Hoff factor 'i' accounts for
1. the extent of dissociation of solute
2. the extent of dissolution of solute
3. the degree of decomposition of solution
4. degree of solubilization of solute
The azeotropic mixture of water and ethanol boils at 78.15 oC. When this mixture is distilled, it is possible to obtain-
1. Pure H2O
2. Pure C2H5OH
3. Pure H2O as well as pure C2HOH
4. Neither H2O nor C2H5OH in their pure state
Which of the following changes with a change in temperature?
(1) Mole fraction
(2) Formality
(3) %(W/W)
(4) Molality