1. Basic Concepts of
Chemistry
Content:
Introduces fundamental concepts of chemistry including matter, its properties,
and classification. Discusses the mole concept, stoichiometry, and chemical
calculations.
Objective:
To understand the basic principles and definitions in chemistry and to perform
quantitative calculations in chemical reactions.
2. Structure of Atom
Content:
Explains the structure of an atom, including subatomic particles (protons,
neutrons, electrons), atomic models, and quantum numbers.
Objective:
To comprehend the arrangement of subatomic particles and the electronic
configuration of atoms.
3. Classification of
Elements and Periodicity in Properties
Content:
Covers the periodic table, periodic law, and periodic trends such as atomic
radius, ionization energy, and electron affinity.
Objective:
To analyze and predict the properties of elements based on their position in
the periodic table and periodic trends.
4. Chemical Bonding and Molecular Structure
Content:
Discusses types of chemical bonds (ionic, covalent, metallic) and molecular
geometry. Includes VSEPR theory and hybridization.
Objective:
To understand how atoms bond to form molecules and predict the shapes and
properties of molecules.
5. States of Matter
Content:
Explores the different states of matter (solid, liquid, gas) and their
properties. Covers phase transitions and the kinetic molecular theory.
Objective:
To analyze the behavior of matter in different states and the factors
influencing phase changes.
6. Thermodynamics
Content:
Introduces the principles of thermodynamics, including the laws of
thermodynamics, enthalpy, entropy, and Gibbs free energy.
Objective:
To apply thermodynamic principles to chemical reactions and understand energy
changes during chemical processes.
7. Equilibrium
Content:
Covers chemical equilibrium, Le Chatelier's principle, and equilibrium
constants. Discusses factors affecting equilibrium and the concept of dynamic
equilibrium.
Objective:
To understand how chemical equilibria are established and how they respond to
changes in conditions.
8. Redox Reactions
Content: Explains oxidation reduction
reactions, balancing redox equations, and the concept of oxidation states.
Discusses applications and real world examples.
Objective:
To analyze and balance redox reactions and understand their significance in
various chemical processes.
9. Hydrogen
Content:
Discusses the properties, production, and uses of hydrogen. Covers hydrogen
isotopes and their chemical behavior.
Objective:
To study the characteristics of hydrogen and its role in chemical reactions and
industrial applications.
10. sBlock Elements
(Alkali and Alkaline Earth Metals)
Content:
Covers the properties, occurrence, and reactions of alkali metals (Group 1) and
alkaline earth metals (Group 2). Discusses their compounds and uses.
Objective:
To understand the chemistry of sblock elements and their applications in
various fields.
11. Some pBlock
Elements
Content:
Introduces the properties and chemistry of selected pblock elements, including
Group 13, 14, and 15 elements. Discusses their compounds and reactions.
Objective:
To study the properties and reactions of some important pblock elements and their
compounds.
12. Organic Chemistry
Some Basic Principles and Techniques
Content:
Covers the basics of organic chemistry, including functional groups,
nomenclature, isomerism, and reaction mechanisms.
Objective:
To understand the principles of organic chemistry and apply them to various
organic reactions and compounds.
13. Hydrocarbons
Content:
Discusses different types of hydrocarbons (alkanes, alkenes, alkynes, and
aromatic hydrocarbons), their properties, and reactions.
Objective:
To study the structure, properties, and reactions of hydrocarbons and their
importance in organic chemistry.
14. Environmental
Chemistry
Content:
Examines the impact of chemicals on the environment, including pollution,
greenhouse gases, and environmental sustainability.
Objective:
To understand the role of chemistry in environmental issues and explore
solutions for environmental problems.
