Solutions Chemistry Questions PDF

Summary

This document is a collection of chemistry questions and answers, focusing on the properties of solutions and deviations from Raoult's law. It covers topics such as positive and negative deviations, Raoult's law in detail, and the impact of temperature on vapor pressure. This is ideal for undergraduate level chemistry students.

Full Transcript

Solution

Question 1

Explain solutions with positive deviations from Raoult's law.

Answer: dig from notes

\(i) A solution or a liquid mixture which has higher vapour pressure than
theoretically calculated by Raoult's law or higher than those of pure
components is called a nonideal solution with positive deviation.

\(ii) In these solutions, solute-solvent intermolecular attractions are
weaker than those between solvent-solvent and solute-solute
interactions.

\(iii) For example, solutions of acetone and ethanol, carbon disulphide
and acetone, etc.

Question 2

Explain solutions with negative deviations from Raoult's law.

Answer: dig from notes

\(1) A solution or a liquid mixture which has lower vapour pressure than
theoretically calculated by Raoult's law or lower than those of pure
components is called a nonideal solution with negative deviation

\(2) In these solutions, the intermolecular interactions between solvent
and solute molecules are stronger than solvent-solvent or solute-solute
interactions.

\(3) For example, solutions of phenol and aniline, chloroform and
acetone, etc.

Question 3

State and explain Raoult's law for solutions of nonvolatile solutes.

Answer:

\(a) Statement of Raoult's law : The law states that the vapour pressure
of a solvent over the solution of a nonvolatile solute is equal to the
vapour pressure of the pure solvent multiplied by mole fraction of the
solvent at constant temperature.

\(b) Explanation : Let P0 and P be the vapour pressures of a pure solvent
and a solution respectively. If x1 is the mole fraction of the solvent
then Raoult's law can be represented as,

P = x1P0

For a binary solution containing one solute, if x1 and x2 are mole
fractions of a solvent and a solute respectively then,

x1 + x2 = 1

∴ x1 = 1 -- x2

∴ P = x1P0

= (1 -- x2) P0

= P0 -- x2P0

= P0 -- P = x2P0

∴ P0 -- P = x2P0

∴ x2 = P0−PP0

P0 -- P = ΔP is the lowering of vapour pressure

∴ x2 = ΔP/P0

In the equation, P0 -- P/P0 is called relative lowering of vapour
pressure.

Hence Raoult's law can also be stated as the relative lowering of vapour
pressure is equal to mole fraction of the solute.

Question 4

Explain the effect of temperature on the vapour pressure of a liquid.

Answer:

The vapour pressure of a liquid is the pressure of the vapour in
equilibrium with the liquid at a given temperature. The evaporation of a
liquid requires thermal energy. Hence, as temperature rises, the vapour
pressure rises until it becomes equal to the external pressure,
generally the atmospheric pressure, 101.3 kNm-2 (1 atm). This
temperature is called the normal boiling point of the liquid.

Question 5

What is abnormal colligative property? Explain the reasons.

Answer:

Abnormal colligative property : When the experimentally measured
colligative property of a solution is different from that calculated
theoretically by the van't Hoff equation or by the laws of osmosis, then
the solution is said to have abnormal colligative property.

Explanation : The colligative property depends on the number of solute
particles in the solution but it is independent of their nature.
Abnormal values of them arise when the dissolved solute undergoes a
molecular change like dissociation or association in the solution.

The observed colligative property (or abnormal colligative property )
may be higher or lower than the theoretical value.

\(i) Dissociation of the solute molecules : When a solute like an
electrolyte is dissolved in a polar solvent like water, it undergoes
dissociation, which results in the increase in the number of particles
in the solution.

Hence, the observed value of the colligative property becomes higher
than the theoretical value, e.g., when one mole of KCl is dissolved in
the solution then due to dissociation, KCl → K+ + Cl--, the number of
particles increases, hence, the colligative properties like osmotic
pressure elevation in the boiling point, etc. increase.

\(ii) Association of the solute molecules : When a solute like a
nonelectrolyte is dissolved in a nonpolar solvent like benzene, it
undergoes association forming molecules of higher molecular mass. Hence,
the number of the particles in the solution decreases. Therefore the
colligative properties like osmotic pressure, elevation in the boiling
point, etc., are lower than the theoretical value, e.g., nA → An.

2CH3COOH → (CH3COOH)2

2C6H5COOH → (C6H5COOH)2

Question 6

Obtain a relation between degree of dissociation and molar mass for an
electrolyte.

Answer form notes

Q7 explain vantoff factor and from notes

Q8. Explain elevation in boiling point and depression in freezing point
with suitable graph it\'s unit

Ans from notes