NCERT Revision Notes for Chapter 1 Solutions Class 12 Chemistry

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Solutions can be classified based on the phases of the solute and solvent. The common types are:

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The concentration of a solution can be expressed in various ways:

• Mass Percentage (w/w): Mass % of a component = (Mass of the component / Total mass of the solution) × 100
• Volume Percentage (V/V): Volume % of a component = (Volume of the component / Total volume of the solution) × 100
• Molarity (M): Molarity (M) = Moles of solute / Volume of solution in liters
• Molality (m): Molality (m) = Moles of solute / Mass of solvent in kilograms
• Mole Fraction (χ): Mole Fraction (χ) = (Moles of component) / (Total moles of all components)

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Henry’s law states that at constant temperature, the solubility of a gas in a liquid is directly proportional to the partial pressure of the gas above the solution:

• C = kP (where C is the concentration of the gas, P is the partial pressure, and k is the Henry’s law constant)

Effect of pressure on the solubility of a gas. The concentration of dissolved gas is proportional to the pressure on the gas above the solution

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Raoult’s law states that the partial vapor pressure of each volatile component in a solution is directly proportional to its mole fraction in the solution. Mathematically:

p₁ = χ₁ * p₁⁰, where p₁ is the vapor pressure of component 1 in the solution, and p₁⁰ is the vapor pressure of the pure solvent.

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Solutions can be categorized as:

• Ideal Solutions: Solutions that obey Raoult's law over the entire range of concentration.
• Non-Ideal Solutions: Solutions that do not obey Raoult’s law. They exhibit either positive or negative deviations from Raoult’s law.

The vapour pressures of two component systems as a function of composition (a) a solution that shows positive deviation from Raoult's law and (b) a solution that shows negative deviation from Raoult's law.

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Colligative properties depend on the number of solute particles, not on their chemical identity. These properties include:

• Lowering of Vapor Pressure: The vapor pressure of the solvent decreases when a non-volatile solute is added.

The vapour pressure curve for solution lies below the curve for pure water. The diagram shows that T_b denotes the elevation of boiling point of a solvent in solution.

• Elevation of Boiling Point: The boiling point of the solution is higher than that of the pure solvent.
• Depression of Freezing Point: The freezing point of the solution is lower than that of the pure solvent.

Diagram showing T_f, depression of the freezing point of a solvent in a solution.

• Osmotic Pressure: The pressure required to stop osmosis, which is proportional to the molarity of the solution. The formula is:
  π = C × R × T

Level of solution rises in the thistle funnel due to osmosis of solvent.

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• Freezing point depression of water when salt is added.
• Boiling point elevation of water when sugar is dissolved.
• Osmotic pressure calculation to find the molar mass of solutes.

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