- 大学物理简明教程(新世纪普通高等教育双语全英教学专用教材)(英文版)
- - 作者：编者:赵可//樊代和|责编:张金奎//汤嘉
  - 出版社：机械工业
  - ISBN：9787111749653
  - 出版日期：2024/04/01
  - 页数：277
- 售价：22

内容大纲
    本书是一本英文简明大学物理教材，对力学、电磁学、波动、热学以及近代物理等物理学的基础内容进行了简要的介绍。
    本书篇幅相对不长，阅读量适中，内容上偏重基础概念，并且只在少量必要的地方使用了微积分。本书根据学生的高中物理基础对知识点结构进行了优化，既避免了大量重复高中知识，也利用了高中物理基础帮助学生适应英文环境下的学习。
    本书适合在大学阶段开始全英文学习的理工科大学生使用，也适合其他需要熟悉英文基础物理的读者阅读。
作者介绍
目录
前言
Chapter 1  Kinematics
  1.1  Preparations
    1.1.1  Coordinates,Displacement and Distance
    1.1.2  Vectors and Scalars
  1.2  Velocity and Acceleration
    1.2.1  Velocity
    1.2.2  Acceleration
    1.2.3  Graphical Analysis
  1.3  Motion with Constant Acceleration
    1.3.1  One-Dimensional Motion
    1.3.2  Motion under Gravity and Projectile Motion
  1.4  Frame of Reference
  Problems and Exercises
Chapter 2  Newton's Laws and
  Forces2.1  Newtons Laws of Motion
  2.2  Free-Body Diagram and Forces
    2.2.1  Free-Body Diagram
    2.2.2  Normal Force
    2.2.3  Tension
    2.2.4  Friction
    2.2.5  Drag Force
  2.3  Elasticity
  Problems and Exercises
Chapter 3  Work and Energy
  3.1  Work and Kinetic Energy
  3.2  Gravitational Potential Energy
  3.3  Potential Energy of Elastic Spring
  3.4  Conservation of Mechanical Energy
  Problems and Exercises
Chapter 4  Momentum and Collisions
  4.1  Momentum and Impulse
    4.1.1  Momentum
    4.1.2  Impulse
    4.1.3  Impulse and Average Force
    4.1.4  Conservation of Momentum
  4.2  Collisions
    4.2.1  Elastic Collisions
    4.2.2  Inelastic Collisions
    4.2.3  Collisions in Two Dimensions
  Problems and Exercises
Chapter 5  Circular Motion and Gravity
  5.1  Angular Quantities and Circular Motion
  5.2  Dynamics in Circular Motion
  5.3  Newtons Law of Universal Gravitation and Motion of Satellites
    5.3.1  Newtons Law of Universal Gravitation
    5.3.2  Motion of Satellites
  Problems and Exercises
Chapter 6  Dynamics of Rotation
  6.1  Dynamics of Rotational Motion

  6.2  Angular Momentum and Its Conservation
    6.2.1  Angular Momentum
    6.2.2  Conservation of Angular Momentum
  6.3  Static Equilibrium
  Problems and Exercises
Chapter 7  Vibrational Motions
  7.1  Simple Harmonic Motion
    7.1.1  Describing Simple Harmonic Motion
    7.1.2  Simple Pendulum
    7.1.3  Energy in Simple Harmonic Oscillator
  7.2  Damped Harmonic Motion and Forced Vibration
    7.2.1  Damped Harmonic Motion
    7.2.2  Resonance
  7.3  Superposition of Simple Harmonic Motions
    7.3.1  Superposition of SHMs at the Same Frequency
    7.3.2  Beats
  Problems and Exercises
Chapter 8  Mechanical Waves
  8.1  Wave Motion
    8.1.1  Basic Parameters of Waves
    8.1.2  Wave Speed
    8.1.3  Wave Function
  8.2  Superposition of Waves
    8.2.1  Interference and Standing Waves
    8.2.2  Huygens Principle*
  8.3  Doppler Effect
  Problems and Exercises
Chapter 9  Wave Optics
  9.1  The Wave Nature of Light
    9.1.1  Spectrum of Electromagnetic Waves
    9.1.2  The Index of Refraction,Total Internal Refraction
  9.2  Interference and Diffraction
    9.2.1  Interference Between Waves
    9.2.2  Double-Slit Interference
    9.2.3  Single-Slit Diffraction
    9.2.4  Circular Aperture and Resolution Ability
    9.2.5  Diffraction Grating
  Problems and Exercises
Chapter 10  Introduction to Quantum Physics
  10.1  Quantization of Light
    10.1.1  Black body Radiation
    10.1.2  Plancks Quantum Theory
    10.1.3  Photon Model and Photoelectric Effect
  10.2  Atomic Models
    10.2.1  The Bohrs Model
    10.2.2  Spectrum of Hydrogen
  10.3  Matter Wave and Wave-Particle Duality
    10.3.1  De Broglies Wave
    10.3.2  Wave-Particle Duality and Wave Function
  Problems and Exercises

Chapter 11  Electric Field
  11.1  Electrostatic Field
  11.2  Electric Potential
  11.3  Conductors and Insulators
    11.3.1  Conductors in Equilibrium
    11.3.2  Dielectrics
  Problems and Exercises
Chapter 12  DC Circuits
  12.1  Resistors
    12.1.1  Resistance of a Conductor
    12.1.2  Resistors in Circuits
  12.2  Battery
  12.3  Kirchhoffs Rules
  Problems and Exercises
Chapter 13  Capacitors
  13.1  Capacitors in DC Circuits
    13.1.1  Capacitance
    13.1.2  Energy Stored in Capacitors
  13.2  RC Circuits
    13.2.1  Charging through RC Circuits
    13.2.2  Discharging
  Problems and Exercises
Chapter 14  Magnetism
  14.1  Magnetic Field and Magnetic Force
    14.1.1  Magnets and Magnetic Field
    14.1.2  Magnetic Force on Moving Charges
    14.1.3  Magnetic Force on Electric Current
    14.1.4  Hall Effect
  14.2  Magnetic Field Due to Current-Carrying Wire
  14.3  Materials in Magnetic Field and Ferromagnetism
    14.3.1  Paramagnetic Materials and Diamagnetic Materials
    14.3.2  Ferromagnetic Materials
  Problems and Exercises
Chapter 15  Electromagnetic
  Induction15.1  Induced EMF
    15.1.1  Faraday's Law of Induction,Lenz's Law
    15.1.2  Flux Cutting
    15.1.3  Flux Linking
  15.2  Eddy Currents,Electric Generator,Back EMF and Transformers
    15.2.1  Eddy Currents
    15.2.2  Electric Generator and Back EMF
    15.2.3  Transformers
  15.3  Inductance
    15.3.1  Self-Inductance and Inductor
    15.3.2  L-R Circuit and the Energy in an Inductor
  Problems and Exercises
Chapter 16  AC Circuits
  16.1  AC Voltage and Current
  16.2  Reactance
    16.2.1  Capacitive Reactance

    16.2.2  Inductive Reactance
    16.2.3  Power in Capacitor and Inductor
  16.3  RLC Circuits and Impedance
    16.3.1  Phasor
    16.3.2  Impedance in AC Circuits
    16.3.3  Resonance and Power in RLC Circuits
    16.3.4  Capacitor and Inductor in Parallel*
  16.4  Electromagnetics Wave, Production and Reception
    16.4.1  Maxwell's Equations*
    16.4.2  Antennas*
  Problems and Exercises
Chapter 17  Temperature and Heat
  17.1  Temperature and Matter
    17.1.1  Introduction to Temperature
    17.1.2  States of Matter,Phase Change,and Phase Diagram
    17.1.3  Heat Capacity
    17.1.4  Thermal Expansion
  17.2  Heat Flow
  17.3  Ideal Gas
    17.3.1  The Ideal Gas Law
    17.3.2  Molecular Interpretation of Temperature
    17.3.3  Internal Energy
  Problems and Exercises
Chapter 18  Laws of Thermodynamics
  18.1  The First Law of Thermodynamics
  18.2  Thermodynamics Processes for Ideal Gases
    18.2.1  Isochoric,Isobaric and Isothermal Processes
    18.2.2  Adiabatic Process
  18.3  Cyclic Processes and Applications
    18.3.1  Cyclic Processes
    18.3.2  Heat Engine,Heat Pump and Cold Pump
  18.4  The Second Law of Thermodynamics
    18.4.1  Direction of Thermodynamic Processes
    18.4.2  Carnot Cycle and the Maximum Efficiency of Heat Engines
    18.4.3  Entropy*
  Problems and ExercisesReferences
References

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