Physics

Physics

Nothing happens until something moves!

Course information

Course plan

Project guide

Semester 1:

Chapter 1 – Physics and Measurements

Chapter 2 - Motion in One Dimension

Chapter 3 - Vectors

Chapter 4 - Motion in Two Dimensions

Chapter 5 - The Laws of Motion

Chapter 6 - Circular Motion and Other Applications of Newton’s Laws

Chapter 7- Energy of a System

Chapter 8 - Conservation of Energy

Chapter 9 - Linear Momentum and Collisions

Chapter 10 - Rotation of a Rigid Object about a Fixed Axis

Chapter 11 - Angular Momentum

Chapter 12 - Static Equilibrium and Elasticity

Chapter 13 - Universal Gravitation

Chapter 14 - Fluid Mechanics

Chapter 15 - Oscillatory Motion

Chapter 16 - Wave Motion

Chapter 17 - Sound Waves

Chapter 18 - Superposition and Standing Waves

Chapter 19 - Temperature

Chapter 20 - The First Law of Thermodynamics

Chapter 21 - The Kinetic Theory of Gases

Chapter 22 - Heat Engines, Entropy and the Second Law of Thermodynamics

Semester 2:

Chapter 23 – Electric Fields

Chapter 24 – Gauss’s Law

Chapter 25 – Electric Potential

Chapter 26 – Capacitance and Dielectrics

Chapter 27 – Current and Resistance

Chapter 28 – Direct Current Circuits

Chapter 29 – Magnetic Fields

Chapter 30 – Sources of the Magnetic Field

Chapter 31 – Faraday’s Law

Chapter 32 – Inductance

Chapter 33 – Alternating Current Circuits

Chapter 34 – Electromagnetic Waves

Chapter 35 – The Nature of Light and the Laws of Geometric Optics

Chapter 36 – Image Formation

Chapter 37 – Wave Optics

Chapter 38 – Diffraction Patterns and Polarization

Chapter 39 – Relativity

Chapter 40 – Introduction to Quantum Physics

Chapter 41 – Quantum Mechanics

Chapter 42 – Atomic Physics

Chapter 43 – Molecules and Solids

Chapter 44 – Nuclear Structure

Chapter 45 – Applications of Nuclear Physics

Chapter 46 – Particle Physics and Cosmology

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