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    • 大学物理--电磁学(英文版)
      • 作者:编者:胡海云//吴晓丽//缪劲松|责编:时京京
      • 出版社:北京理工大学
      • ISBN:9787576317404
      • 出版日期:2022/09/01
      • 页数:354
    • 售价:27.2
  • 内容大纲

        电磁学主要研究电磁场的基本性质、运动规律及其与带电物质之间的相互作用。本书主要内容为:介绍电场、磁场的基本规律和基本现象,特别是电磁场的基本定律、定理,包括库仑定律、电场的高斯定理、静电场的环路定理、安培定律、磁场的高斯定理及安培环路定理、电磁感应定律等,并帮助读者利用这些定律、定理分析和解决电磁学中的典型问题;理解场的物理含义和电磁场的物质属性;理解麦克斯韦方程和电磁波的基本性质;初步掌握电磁场作用于导体、电介质和磁性物质的经典唯象描述。
        本书可作为理工科各专业的《大学物理——电磁学》英文教材及教学参考书。
  • 作者介绍

  • 目录

    Introduction
    Chapter 1  Electrostatic Field
      1.1  Coulomb's Law
        1.1.1  Electric Charge
        1.1.2  Coulomb's Law
        1.1.3  The Principle of Superposition of Electric Forces
      1.2  Electric Field and Electric Field Intensity
        1.2.1  Electric Field
        1.2.2  Electric Field Intensity
        1.2.3  Calculation of Electric Field Intensity
      1.3  Gauss Theorem of Electrostatic Field
        1.3.1  Electric Field Lines
        1.3.2  Electric Flux
        1.3.3  Gauss Theorem
        1.3.4  Find the Distribution of Electrostatic Field with Gauss Theorem
      1.4  Circuital Theorem of Electrostatic Field and Electric Potential
        1.4.1  Circuital Theorem of Electrostatic Field
        1.4.2  Electrostatic Potential Energy
        1.4.3  Electric Potential and Electric Potential Difference
        1.4.4  Calculation of Electric Potential
        1.4.5  Equipotential Surface
        1.4.6  Electric Potential Gradient
      1.5  Electric Dipole in Electrostatic Field
        1.5.1  Torque on Electric Dipole in External Electric Field
        1.5.2  Electric Potential Energy of Electric Dipole in External Electric Field
      Summary
      Questions
      Problems
    Chapter 2  Conductor and Dielectric in Electrostatic Field
      2.1  Conductor in Electrostatic Field
        2.1.1  The Conditions of Electrostatic Equilibrium of Conductor
        2.1.2  The Charge Distribution of Conductor in Electrostatic Equilibrium
        2.1.3  Electrostatic Shielding
        2.1.4  Calculation of Electrostatic Field in the Presence of Conductors
      2.2  Dielectric in Electrostatic Field
        2.2.1  The Influence of Dielectric on Electric Field
        2.2.2  Polarization of Dielectrics
        2.2.3  Electric Polarization
      2.3  Gauss Theorem with Dielectric
        2.3.1  Electric Displacement and Gauss Theorem with Dielectric
        2.3.2  Application of Gauss Theorem with Dielectric
        2.3.3  The Boundary Conditions of Electrostatic Field
      2.4  Capacitor and Its Capacity
        2.4.1  Capacitance of Isolated Conductor
        2.4.2  Capacitance of Capacitor
        2.4.3  Connection of Capacitors
        2.4.4  Calculation and Application of Capacitance
      2.5  Energy of Electric Field
        2.5.1  The Electrostatic Energy of the Charge System
        2.5.2  Energy of Capacitor

        2.5.3  Energy of Electrostatic Field Energy Density
      Summary
      Questions
      Problems
    Chapter 3  Steady Magnetic Field
      3.1  Steady Current
        3.1.1  Electric Current and Current Density
        3.1.2  The Differential Form of Ohm's law
        3.1.3  EMF
      3.2  Magnetic Fields and B
        3.2.1  Magnetic Phenomena
        3.2.2  Magnetic Field B
        3.2.3  Magnetic Field Lines
      3.3  Biot-Savart Law
        3.3.1  The Biot-Savart Law
        3.3.2  Applications of the Biot-Savart Law
        3.3.3  Magnetic Field of a Moving Charge
      3.4  Gauss's Law for Magnetism and Ampere's Law
        3.4.1  Magnetic Flux and Gauss's Law for Magnetism
        3.4.2  Ampere's Law
        3.4.3  Applications of Ampere's Law
      3.5  Magnetic Force on a Current-Carrying Wire
        3.5.1  Ampere's Force
        3.5.2  Torque on a Current Loop
      3.6  Force on an Electric Charge Moving in a Magnetic Field
        3.6.1  Lorentz Force
        3.6.2  Motion of a Charged Particle in a Magnetic Field
        3.6.3  Applications
      3.7  Magnetic Materials
        3.7.1  Magnetic Fields in Magnetic Materials
        3.7.2  Magnetization
        3.7.3  Magnetization Vector M and Magnetization Current
        3.7.4  Ampere's Law in Magnetic Materials and Magnetic Field Intensity H
        3.7.5  Ferromagnetism
      Summary
      Questions
      Problems
    Chapter 4  Electromagnetic Induction
      4.1  Faraday's Law of Induction
        4.1.1  Phenomena of Electromagnetic Induction
        4.1.2  Faraday's Law of Induction
        4.1.3  Lenz's Law
      4.2  Motional EMF and Induced EMF
        4.2.1  Motional EMF
        4.2.2  The Induced EMF
        4.2.3  Induced Electric Fields
        4.2.4  Eddy Currents and Electromagnetic Damping
      4.3  Self-Inductance and Mutual Inductance
        4.3.1  Self-Inductance
        4.3.2  Mutual Inductance

      4.4  Energy and Energy Density of the Magnetic Field
      4.5  Maxwell's Equations and Electromagnetic Waves
        4.5.1  Displacement Current
        4.5.2  General Expression of Ampere's Law
        4.5.3  Maxwell's Equations
        4.5.4  Electromagnetic Waves
      4.6  Superconductivity
        4.6.1  Physical Properties of Superconductors
        4.6.2  Introduction to BCS Theory
        4.6.3  Josephson's Effect
        4.6.4  Application of Superconductivity in Technology
      Summary
      Questions
      Problems
    References

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