1. Physical World and
Measurement
Content:
Introduces the scope and nature of physical science. Discusses fundamental and
derived units, measurement techniques, and the importance of accuracy and
precision in experiments.
Objective:
To understand the fundamental concepts of physical measurement and the
importance of accuracy in scientific experiments.
2. Kinematics
Content:
Covers the study of motion, including concepts of displacement, velocity, and
acceleration. Discusses equations of motion and graphical analysis of motion.
Objective:
To analyze and describe the motion of objects using kinematic equations and
graphical methods.
3. Laws of Motion
Content:
Explains Newton's three laws of motion and their applications. Discusses
concepts of force, inertia, and momentum, and the principle of action and
reaction.
Objective:
To apply Newton's laws to solve problems related to forces and motion.
4. Work, Energy, and
Power
Content:
Introduces the concepts of work, energy, and power. Discusses different forms
of energy, conservation of energy, and power calculations.
Objective:
To understand and apply the principles of work, energy, and power in various
physical contexts.
5. Motion of System
of Particles and Rigid Body
Content:
Discusses the motion of a system of particles and rigid bodies. Covers concepts
of center of mass, rotational motion, and torque.
Objective:
To analyze the motion and forces acting on a system of particles and rigid bodies.
6. Gravitation
Content:
Covers the universal law of gravitation, gravitational force, and gravitational
potential energy. Discusses the motion of planets and satellites.
Objective:
To understand the gravitational forces and their effects on celestial bodies
and objects on Earth.
7. Properties of Bulk
Matter
Content:
Introduces the properties of matter such as density, elasticity, and viscosity.
Discusses how these properties affect the behavior of materials.
Objective:
To study the physical properties of bulk matter and their implications in realworld
applications.
8. Thermodynamics
Content:
Explains the laws of thermodynamics, heat transfer, and thermal processes.
Discusses concepts of internal energy, work done by gases, and heat engines.
Objective:
To understand the principles of thermodynamics and their applications in
various thermal processes.
9. Behavior of
Perfect Gas and Kinetic Theory
Content:
Discusses the behavior of ideal gases according to the kinetic theory. Covers
gas laws, molecular motion, and the derivation of gas equations.
Objective:
To analyze the properties and behavior of ideal gases using the kinetic theory.
10. Oscillations and Waves
Content:
Introduces oscillatory motion, simple harmonic motion, and wave phenomena.
Covers types of waves, wave properties, and sound waves.
Objective:
To understand the nature of oscillations and waves and their applications in
physical systems.
11. Mechanical
Properties of Solids and Fluids
Content:
Discusses the mechanical properties of solids and fluids, including stress,
strain, elasticity, and fluid dynamics.
Objective:
To analyze the mechanical properties of materials and fluids and their behavior
under different conditions.
12. Thermal
Properties of Matter
Content:
Covers the thermal properties of matter, including heat capacity, thermal
expansion, and specific heat. Discusses how materials respond to temperature
changes.
Objective:
To understand how different materials respond to changes in temperature and the
concept of thermal equilibrium.
13. Thermodynamics
Content:
Discusses the laws of thermodynamics in more detail, including the first and
second laws. Covers concepts of entropy, Carnot engines, and real world
applications of thermodynamic principles.
Objective:
To deepen the understanding of thermodynamic principles and their implications
for heat engines and energy transfer processes.
14. Kinetic Theory of
Gases
Content:
Explores the kinetic theory of gases in greater depth, focusing on the
derivation of the ideal gas law from kinetic theory. Discusses real gases and
deviations from ideal behavior.
Objective:
To refine the understanding of how gases behave under different conditions and
to apply the kinetic theory to real world scenarios.
15. Waves
Content:
Provides a more comprehensive study of wave phenomena, including the mathematical
description of waves, interference, diffraction, and polarization of light.
Explores various types of waves in different media.
Objective:
To gain a thorough understanding of wave behavior and applications, including
complex wave interactions and the principles of light waves.
