Physics 12

Chapter 1: Kinematic

1.1 Motion and Motion Graphs

1.2 Equations of Motion

1.3 Displacement in Two Dimensions

1.4 Velocity and Acceleration in Two Dimensions

1.5 Projectile Motion

1.6 Relative Motion

Chapter 2: Dynamics

2.1 Forces and Free-Body Diagrams

2.2 Newton's Law of Motion

2.3 Applying Newton's Laws of Motion

2.4 Forces of Friction

Chapter 3: Uniform Circular Motion

3.1 Inertial and Non-inertial Frames of Reference

3.2 Centripetal Acceleration

3.3 Centripetal Force

3.4 Rotating Frames of Reference

Chapter 4: Work and Energy

4.1 Work Done by a Constant Force

4.2 Kinetic Energy and the Work-Energy Theorem

4.3 Gravitational Potential Energy

4.5 The Law of Conservation of Energy

4.6 Elastic Potential Energy and Simple Harmonic motion

4.7 Springs and Conservation of Energy

Chapter 5: Momentum and Collisions

5.1 Momentum and Impulse

5.2 Conservation of Momentum in 1D

5.3 Collisions

5.4 Head-on Elastic Collisions

5.5 Collisions in 2D

Chapter 6: Gravitational Fields

6.1 Newtonian Gravitation

6.2 Orbits

Chapter 7: Electric Fields

7.1 Properties of Electric Charge

7.2 Coulomb's Law

7.3 Electric Fields

7.4 Potential Difference and Electric Potential

7.5 Electric Potential and Electric Potential Energy Due to Point Charges

7.6 The Millikan Oil Drop Experiment

Chapter 8: Magnetic Fields

8.1 Magnets and Electromagnets

8.2 Magnetic Force on Moving Charges

8.3 Magnetic Force on a Current-Carrying Conductor

8.4 Motion of Charged Particles in Magnetic Fields

8.5 Applications of electric and Magnetic Fields

Chapter 9: Waves and Light

9.1 Properties of Waves and Light

9.2 Refraction and Total Internal Reflection

9.3 Diffraction and Interference of Water Waves

9.4 Light: Wave or Particle?

9.5 Interference of Light Waves: Young's Double-Slit Experiment

Chapter 10: Applications of the Wave Nature of Light

10.1 Interference in Thin films

10.2 Single-Slit Diffraction

10.3 The Diffraction Grating

10.4 Electromagnetic Radiation

10.5 Polarization of Light

Chapter 11: Relativity

11.1 The Special Theory of Relativity

11.2 Time Dilation

11.3 Length Contraction, Simultaneity, and Relativistic Momentum

11.4 Mass-Energy Equivalence

Chapter 12: Quantum Mechanics

12.1 Introducing Quantum Theory

12.2 Photons and the Quantum Theory of Light

12.3 Wave Properties of Classical Particles

12.6 The Standard Model of elementary particles