1. Solid State
Content: Introduction to crystalline and amorphous solids, unit
cells, close packed structures, imperfections in solids, and electrical and
magnetic properties.
Objective: Understand the classification of solids and analyze
their properties based on structure and bonding.
2. Solutions
Content: Covers types of solutions, solubility, concentration
terms, colligative properties, Raoult’s law, and van't Hoff factor.
Objective: Study the behavior of solutions and calculate
colligative properties to understand molecular interactions in solutions.
3. Electrochemistry
Content: Discusses electrochemical cells, Nernst equation,
electrolytic conductance, and applications of electrochemistry like batteries
and fuel cells.
Objective: Understand redox reactions in electrochemical systems
and their practical applications in energy storage.
4. Chemical Kinetics
Content: Focuses on the rate of chemical reactions, factors
affecting rates, rate laws, activation energy, and the Arrhenius equation.
Objective: Analyze reaction rates and mechanisms, and apply the
concept of reaction kinetics to reallife chemical processes.
5. Surface Chemistry
Content: Deals with adsorption, catalysts, colloids, and emulsions,
including the Tyndall effect and Brownian motion.
Objective: Understand surface phenomena and their applications in
catalysis and colloidal systems.
6. General Principles and Processes of
Isolation of Elements
Content: Focuses on the extraction and purification of metals from
ores, including thermodynamic principles, reduction methods, and refining
techniques.
Objective: Learn the principles behind metallurgical processes and
their industrial applications.
7. pBlock Elements
Content: Discusses the properties, preparation, and uses of
elements in groups 15 to 18, including oxides, halides, and interhalogen
compounds.
Objective: Study the periodic trends, chemical behavior, and
practical applications of pblock elements.
8. d and f Block Elements
Content: Covers the general properties, electronic configuration,
oxidation states, and coordination chemistry of d and fblock elements.
Objective: Understand the chemical reactivity, coordination
behavior, and significance of transition and inner transition metals.
9. Coordination Compounds
Content: Discusses Werner’s theory, nomenclature, bonding in
coordination compounds, and their importance in biological systems and
industry.
Objective: Study the structure, bonding, and applications of
coordination compounds in various fields.
10. Haloalkanes and Haloarenes
Content: Introduction to nomenclature, preparation, reactions, and
properties of haloalkanes and haloarenes, including their environmental effects
(CFCs).
Objective: Understand the chemistry and reactions of halogencontaining
organic compounds and their environmental impact.
11. Alcohols, Phenols, and Ethers
Content: Covers the classification, structure, preparation, and
reactions of alcohols, phenols, and ethers.
Objective: Study the reactivity of hydroxyl and ether groups and
their applications in organic synthesis.
12. Aldehydes, Ketones, and Carboxylic Acids
Content: Discusses the structure, nomenclature, preparation, and
chemical reactions of aldehydes, ketones, and carboxylic acids.
Objective: Learn the functional group transformations and
reactivity of carbonyl and carboxyl groups in organic molecules.
13. Organic Compounds Containing Nitrogen
Content: Focuses on amines, diazonium salts, and their reactions,
as well as the structure and uses of nitro compounds.
Objective: Understand the chemistry and importance of nitrogencontaining
compounds in synthesis and pharmaceuticals.
14. Biomolecules
Content: Covers carbohydrates, proteins, enzymes, vitamins, and
nucleic acids, including their structure, function, and importance in
biological systems.
Objective: Learn the role of biomolecules in the biological
processes of living organisms.
15. Polymers
Content: Discusses the classification, types, and properties of
polymers, including addition and condensation polymerization.
Objective: Study the industrial significance of polymers and their
applications in everyday life.
16. Chemistry in Everyday Life
Content: Focuses on the application of chemistry in drugs,
cleansing agents, food preservatives, and artificial sweeteners.
Objective: Understand how chemical compounds are used in daily life
and their impact on health and the environment.
