CHM-DSC-253: Section B (Organic Practical)

Paper Name: Practical (Inorganic, Organic and Physical Chemistry)

Section Marks: 15 (Preparation) + 15 (Purification) = 30 Marks

1. Principles of Organic Preparation

Organic preparation involves the synthesis of a specific organic compound through chemical reactions like substitution, oxidation, or condensation.

• Theoretical Yield: The maximum amount of product that can be formed from the given reactants.
• Percentage Yield: Calculated as (Actual Yield / Theoretical Yield) x 100.
• Crude Product: The initial product obtained before any purification steps are performed.

2. Key Organic Preparations

The syllabus lists several fundamental organic reactions used for synthesis [cite: 764-770].

Nitration Reactions

The introduction of a nitro group (-NO2) into an organic molecule.

• Examples: Nitration of acetanilide, nitrobenzene, or salicylic acid.
• Reagent: Typically a mixture of concentrated Nitric Acid (HNO3) and Sulfuric Acid (H2SO4).

Bromination Reactions

The substitution of hydrogen atoms with bromine atoms.

• Examples: Bromination of phenol or aniline.
• Observation: Often results in the formation of white precipitates (e.g., 2,4,6-tribromophenol).

Iodoform Preparation

The haloform reaction of acetone or ethanol with iodine and alkali.

• Product: Yellow crystals of Iodoform (CHI3) with a characteristic medicinal smell.

3. Specialized Reactions

Some preparations involve structural rearrangements or condensation [cite: 766-769].

• Azomethyne: Formation of Schiff bases through the condensation of amines and aldehydes.
• Benzil from Benzoin: An oxidation reaction using concentrated nitric acid.
• Benzilic Acid from Benzil: A classic rearrangement reaction involving the addition of strong alkali (KOH) to benzil.

4. Purification Techniques: Recrystallization

Recrystallization is the most common method for purifying solid organic compounds based on differences in solubility.

Steps in Recrystallization

1. Selection of a suitable solvent where the solute is soluble at high temperature but insoluble at low temperature [cite: 775-777].
2. Preparation of a saturated solution in hot solvent.
3. Hot filtration to remove insoluble impurities.
4. Cooling the filtrate to allow crystal formation.
5. Cold filtration to collect pure crystals and washing.

Specific Applications

• Decolorization: Use of animal charcoal to remove colored impurities from crude sulphanilic acid.
• Solvents: Boiling water is used for acetanilide; ethanol is used for naphthalene or m-dinitrobenzene.

5. Purification Techniques: Sublimation

Sublimation is used for substances that pass directly from solid to vapor phase upon heating.

• Compounds: Naphthalene, camphor, and phthalic acid.
• Process: The crude solid is heated in a porcelain dish covered with a perforated filter paper and an inverted funnel to collect pure "sublimate" on the cool walls of the funnel.

6. Exam Focus: Laboratory Tips & Viva

Practical Exam Tips

• Safety: Always perform nitration in a fume hood or well-ventilated area due to acid fumes.
• Drying: Ensure crystals are completely dry before weighing them to calculate the yield.
• Melting Point: The purity of your purified product should be checked by determining its melting point; a sharp melting point indicates high purity.

Common Viva Questions

Q: Why is concentrated H2SO4 used in nitration?
A: It acts as a dehydrating agent and helps in the generation of the nitronium ion (NO2+), which is the active electrophile.

Q: What is the role of animal charcoal in recrystallization?
A: It adsorbs high molecular weight colored impurities from the solution.

Q: Define a Schiff Base.
A: It is an azomethine compound formed by the condensation of a primary amine with a carbonyl compound.