![Halliday's Fundamentals of Physics, 1st Australian & New Zealand Edition](https://img.perlego.com/book-covers/4198746/9780730382898_300_450.webp)
Halliday's Fundamentals of Physics, 1st Australian & New Zealand Edition
David Halliday, Jearl Walker, Patrick Keleher, Paul Lasky, John Long, Judith Dawes, Julius Orwa, Ajay Mahato, Peter Huf, Warren Stannard, Amanda Edgar, Liam Lyons, Dipesh Bhattarai
- 1,168 Seiten
- English
- PDF
- Über iOS und Android verfügbar
Halliday's Fundamentals of Physics, 1st Australian & New Zealand Edition
David Halliday, Jearl Walker, Patrick Keleher, Paul Lasky, John Long, Judith Dawes, Julius Orwa, Ajay Mahato, Peter Huf, Warren Stannard, Amanda Edgar, Liam Lyons, Dipesh Bhattarai
Über dieses Buch
The most highly regarded physics resource of the past 50 years, Halliday's Fundamentals of Physics, has been reimagined for the first time for ANZ students. The original Halliday and Resnick text was named the most outstanding physics text of the 20th century by the American Physical Society, and this new edition continues what this resource is known and loved for. This first Australian and New Zealand Edition features local examples, sample problems and cases which highlight how physics is being advanced and applied in Australia and New Zealand. This means students are exposed to many opportunities to draw connections between what they are learning and real-world applications. These features include thought-provoking problems, clear standardised diagrams and thorough but highly readable pedagogy. Available as a full colour printed textbook with an interactive eBook code included, this title enables students to master concepts and succeed in assessment by taking the roadblocks out of self-study, with features designed so you get the most out of learning.
Häufig gestellte Fragen
Information
Inhaltsverzeichnis
- Cover
- Title Page
- Copyright Page
- BRIEF CONTENTS
- CONTENTS
- ABOUT THE ADAPTING AUTHORS
- CHAPTER 1 Measurement
- CHAPTER 2 Motion along a straight line
- CHAPTER 3 Vectors
- CHAPTER 4 Motion in two and three dimensions
- CHAPTER 5 Force and motion—I
- CHAPTER 6 Force and motion—II
- CHAPTER 7 Kinetic energy and work
- CHAPTER 8 Potential energy and conservation of energy
- CHAPTER 9 Centre of mass and linear momentum
- CHAPTER 10 Rotation
- CHAPTER 11 Rolling, torque, and angular momentum
- CHAPTER 12 Equilibrium and elasticity
- CHAPTER 13 Gravitation
- CHAPTER 14 Fluids
- CHAPTER 15 Oscillations
- CHAPTER 16 Waves — I
- CHAPTER 17 Waves — II
- CHAPTER 18 Temperature, heat, and the first law of thermodynamics
- CHAPTER 19 The kinetic theory of gases
- CHAPTER 20 Entropy and the second law of thermodynamics
- CHAPTER 21 Coulomb’s law
- CHAPTER 22 The electric fields
- CHAPTER 23 Gauss' law
- CHAPTER 24 Electric potential
- CHAPTER 25 Capacitance
- CHAPTER 26 Current and resistance
- CHAPTER 27 Circuits
- CHAPTER 28 Magnetic fields
- CHAPTER 29 Magnetic fields due to currents
- CHAPTER 30 Induction and inductance
- CHAPTER 31 Electromagnetic oscillations and alternating current
- CHAPTER 32 Maxwell's equations; magnetism of matter
- CHAPTER 33 Electromagnetic waves
- CHAPTER 34 Images
- CHAPTER 35 Interference
- CHAPTER 36 Diffraction
- CHAPTER 37 Relativity
- CHAPTER 38 Photons and matter waves
- CHAPTER 39 More about matter waves
- CHAPTER 40 All about atoms
- CHAPTER 41 Conduction of electricity in solids
- CHAPTER 42 Nuclear physics
- CHAPTER 43 Energy from the nucleus
- CHAPTER 44 Quarks, leptons, and the big bang
- APPENDIX A
- APPENDIX B
- APPENDIX C
- APPENDIX D
- APPENDIX E
- APPENDIX F
- APPENDIX G
- Index
- EULA