| Topic |
Page # |
|
| Chapter 1. What is Physics? |
|
| 1.1. Physics: Definitions and Applications |
5-13 |
| 1.2. The Scientific Methods |
14-17 |
| 1.3. The Language of Physics: Physical Quantities and Units |
18-52 |
| Chapter 2. Motion in One Dimension |
|
| 2.1. Relative Motion, Distance, and Displacement |
54-61 |
| 2.2. Speed and Velocity |
62-67 |
| 2.3. Position vs. Time Graphs |
67-72 |
| 2.4. Velocity vs. Time Graphs |
73-80 |
| Chapter 3. Acceleration |
|
| 3.1. Acceleration |
93-99 |
| 3.2. Representing Acceleration with Equations and Graphs |
99-108 |
| Chapter 4. Forces and Newton’s Laws of Motion |
|
| 4.1. Force |
116-118 |
| 4.2. Newton’s First Law of Motion: Inertia |
118-122 |
| 4.3. Newton’s Second Law of Motion |
122-128 |
| 4.4. Newton’s Third Law of Motion |
128-134 |
| Chapter 5. Motion in Two Dimensions |
|
| 5.1. Vector Addition and Subtraction: Graphical Methods |
144-153 |
| 5.2. Vector Addition and Subtraction: Analytical Methods |
153-162 |
| 5.3. Projectile Motion |
162-171 |
| 5.4. Inclined Planes |
171-178 |
| 5.5. Simple Harmonic Motion |
178-184 |
| Chapter 6. Circular and Rotational Motion |
|
| 6.1. Angle of Rotation and Angular Velocity |
198-205 |
| 6.2. Uniform Circular Motion |
205-212 |
| 6.3. Rotational Motion |
212-219 |
| Chapter 7. Newton’s Law of Gravitation |
|
| 7.1. Kepler’s Laws of Planetary Motion |
229-237 |
7.2. Newton’s Law of Universal Gravitation and Einstein’s Theory of General
Relativity |
237-245 |
| Chapter 8. Momentum |
|
| 8.1. Linear Momentum, Force, and Impulse |
254-259 |
| 8.2. Conservation of Momentum |
259-262 |
| 8.3. Elastic and Inelastic Collisions |
262-271 |
| Chapter 9. Work, Energy, and Simple Machines |
|
| 9.1. Work, Power, and the Work-Energy Theorem |
280-285 |
| 9.2. Mechanical Energy and Conservation of Energy |
285-289 |
| 9.3. Simple Machines |
290-294 |
| Chapter 10. Special Relativity |
|
| 10.1. Postulates of Special Relativity |
305-312 |
| 10.2. Consequences of Special Relativity |
312-320 |
| Chapter 11. Thermal Energy, Heat, and Work |
|
| 11.1. Temperature and Thermal Energy |
327-332 |
| 11.2. Heat, Specific Heat, and Heat Transfer |
332-340 |
| 11.3. Phase Change and Latent Heat |
340-347 |
| Chapter 12. Thermodynamics |
|
| 12.1. Zeroth Law of Thermodynamics: Thermal Equilibrium |
356-358 |
| 12.2. First law of Thermodynamics: Thermal Energy and Work |
358-366 |
| 12.3. Second Law of Thermodynamics: Entropy |
366-372 |
| 12.4. Applications of Thermodynamics: Heat Engines, Heat Pumps, and Refrigerators
|
372-377 |
| Chapter 13. Waves and Their Properties |
|
| 13.1. Types of Waves |
390-394 |
| 13.2. Wave Properties: Speed, Amplitude, Frequency, and Period |
394-400 |
| 13.3. Wave Interaction: Superposition and Interference |
400-405 |
| Chapter 14. Sound |
|
| 14.1. Speed of Sound, Frequency, and Wavelength |
416-423 |
| 14.2. Sound Intensity and Sound Level |
423-429 |
| 14.3. Doppler Effect and Sonic Booms |
430-434 |
| 14.4. Sound Interference and Resonance |
434-442 |
| Chapter 15. Light |
|
| 15.1. The Electromagnetic Spectrum |
455-463 |
| 15.2. The Behavior of Electromagnetic Radiation |
463-468 |
| Chapter 16. Mirrors and Lenses |
|
| 16.1. Reflection |
478-487 |
| 16.2. Refraction |
487-498 |
| 16.3. Lenses |
498-512 |
| Chapter 17. Diffraction and Interference |
|
| 17.1. Understanding Diffraction and Interference |
523-532 |
| 17.2. Applications of Diffraction, Interference, and Coherence |
532-541 |
| Chapter 18. Static Electricity |
|
| 18.1. Electrical Charges, Conservation of Charge, and Transfer of Charge |
549-562 |
| 18.2. Coulomb’s law |
562-567 |
| 18.3. Electric Field |
567-572 |
| 18.4. Electric Potential |
572-580 |
| 18.5. Capacitors and Dielectrics |
580-590 |
| Chapter 19. Electrical Circuits |
|
| 19.1. Ohm’s law |
603-612 |
| 19.2. Series Circuits |
612-621 |
| 19.3. Parallel Circuits |
621-632 |
| 19.4. Electric Power |
632-637 |
| Chapter 20. Magnetism |
|
| 20.1. Magnetic Fields, Field Lines, and Force |
649-664 |
| 20.2. Motors, Generators, and Transformers |
665-672 |
| 20.3. Electromagnetic Induction |
672-680 |
| Chapter 21. The Quantum Nature of Light |
|
| 21.1. Planck and Quantum Nature of Light |
692-698 |
| 21.2. Einstein and the Photoelectric Effect |
698-704 |
| 21.3. The Dual Nature of Light |
704-710 |
| Chapter 22. The Atom |
|
| 22.1. The Structure of the Atom |
722-734 |
| 22.2. Nuclear Forces and Radioactivity |
734-743 |
| 22.3. Half Life and Radiometric Dating |
743-747 |
| 22.4. Nuclear Fission and Fusion |
747-757 |
| 22.5. Medical Applications of Radioactivity: Diagnostic Imaging and Radiation |
757-762 |
| Chapter 23. Particle Physics |
|
| 23.1. The Four Fundamental Forces |
772-779 |
| 23.2. Quarks |
779-790 |
| 23.3. The Unification of Forces |
790-795 |
| Appendix A |
|
| |
