Principles of Physics: A Calculus Approach, 3/e (Asia Edition) V1+V2 *(套書封膜不分售)*

Raymond A. Serway , John W. Jewett , Shang-Fang Tsai


Style The book is written in a clear, logical, and engaging style.
Pitfall Prevention Over 130 Pitfall Preventions are provided to help students avoid making common mistakes and misunderstandings.
Problem-Solving Strategies Useful strategies help students identify necessary steps for solving problems.
Worked Examples These examples are set off in boxes, and the answers are highlighted with a tan screen.
Problems Over 1,800 end-of-chapter problems are provided with varied levels of difficulty.
Review Problems These problems can be used by students in preparing for tests and by instructors for homework assignments and classroom discussions.


Raymond A. Serway, Emeritus, James Madison University
John W. Jewett, Emeritus, California State Polytechnic University, Pomona
Shang-Fang Tsai, National Taiwan University
About the Adaptor
Shang-fang Tsai received his Ph.D. in 1973 with a major in nuclear theory from the State University of New York at Stony Brook. He had served as Professor and Chairman of the Physics Department, National Taiwan University, before he was appointed in 2003 as the Provost of WuFeng University of Science and Technology, Chiayi, Taiwan, where he also served as a Professor of Electrical Engineering until 2009. He has been a key member in the Training and Selection Committee of students in Taiwan for both the Asian and International Physics Olympiad and was a grand juror of the World Physics Olympiad. In addition, he was the chairman of Theoretical Questions Committee for APhO 2001, 2010, 2021 and IPhO 2003.


1 Introduction and Vectors
2 Motion in One Dimension
3 Motion in Two Dimensions
4 The Laws of Motion
5 More Applications of Newton’s Laws
6 Energy of a System
7 Conservation of Energy
8 Momentum and Collisions
9 Relativity
10 Rotational Motion
11 Gravity, Planetary Orbits, and the Hydrogen Atom
12 Oscillatory Motion
13 Mechanical Waves
14 Superposition and Standing Waves
15 Fluid Mechanics
16 Temperature and the Kinetic Theory of Gases
17 Energy in Thermal Processes: The First Law of Thermodynamics
18 Heat Engines, Entropy, and the Second Law of Thermodynamics
19 Electric Forces and Electric Fields
20 Electric Potential and Capacitance
21 Current and Direct Current Circuits
22 Magnetic Forces and Magnetic Fields
23 Faraday’s Law and Inductance
24 Electromagnetic Waves
25 Reflection and Refraction of Light
26 Image Formation by Mirrors and Lenses
27 Wave Optics
28 Quantum Physics
29 Atomic Physics
30 Nuclear Physics
31 Particle Physics