本书基本概念讲述清晰,注重物理概念,淡化公式推导,强调自主学习,图文并茂,定理和重要公式彩色加重印刷;每章后面配有大量习题,几乎每章都有超过30道习题;并配有光盘,提供了一些场图、动画、问答测试题和关键内容的交互式学习。
本书文笔流畅,可读性好,其目的是使学生可以使用该教材进行独立学习。因此,该书是电气工程和相关专业大学本科电磁场课程的理想教材或参考书,尤其适合作为双语教学或英文授课教材。
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书名 | 工程电磁场(附光盘第7版清华版双语教学用书) |
分类 | 科学技术-自然科学-物理 |
作者 | (美)海特 |
出版社 | 清华大学出版社 |
下载 | ![]() |
简介 | 编辑推荐 本书基本概念讲述清晰,注重物理概念,淡化公式推导,强调自主学习,图文并茂,定理和重要公式彩色加重印刷;每章后面配有大量习题,几乎每章都有超过30道习题;并配有光盘,提供了一些场图、动画、问答测试题和关键内容的交互式学习。 本书文笔流畅,可读性好,其目的是使学生可以使用该教材进行独立学习。因此,该书是电气工程和相关专业大学本科电磁场课程的理想教材或参考书,尤其适合作为双语教学或英文授课教材。 内容推荐 本书是一本国际知名的经典教材,第一版出版距今已50余年。 本书基本概念讲述清晰,注重物理概念,淡化公式推导,强调自主学习,图文并茂;每章后面配有大量习题。 配书光盘提供了彩色场图、动画、问答测试题和关键内容的交互式学习,内容丰富,适子自学。 本书文笔流畅,可读性好,其目的是使学生可以使用该教材进行独立学习。因此,该书是电气工程和相关专业大学本科电磁场课程的理想教材或参考书,尤其适合作为双语教学或英文授课教材。 目录 Preface Guided Tour Chapter 1 Vector Analysis 1.1 Scalars and Vectors 1.2 Vector Algebra 1.3 The Rectangular Coordinate System 1.4 Vector Components and Unit Vectors 1.5 The Vector Field 1.6 The Dot Product 1.7 The Cross Product 1.8 Other Coordinate Systems: Circular Cylindrical Coordinates 1.9 The Spherical Coordinate System References Chapter 1 Problems chapter 2 Coulomb's Law and Electric Field Intensity 2.1 The Experimental Law of Coulomb 2.2 Electric Field Intensity 2.3 Field Due to a Continuous Volume Charge Distribution 2.4 Field of a Line Charge 2.5 Field of a Sheet of Charge 2.6 Streamlines and Sketches of Fields References Chapter 2 Problems Chapter 3 Electric Flux Density, Gauss's Law,and Divergence 3.1 Electric Flux Density 3.2 Gauss's Law 3.3 Application of Gauss's Law: Some Symmetrical Charge Distributions 3.4 Application of Gauss's Law: Differential Volume Element 3.5 Divergence 3.6 Maxwell's First Equation (Electrostatics) 3.7 The Vector Operator V and the Divergence Theorem References Chapter 3 Problems Chapter 4 Energy and Potential 4.1 Energy Expended in Moving a Point Charge in an Electric Field 4.2 The Line Integral 4.3 Definition of Potential Difference and Potential 4.4 The Potential Field of a Point Charge 4.5 The Potential Field of a System of Charges:Conservative Property 4.6 Potential Gradient 4.7 The Dipole 4.8 Energy Density in the Electrostatic Field References Chapter 4 Problems Chapter 5 Current and Conductors 5.1 Current and Current Density 5.2 Continuity of Current 5.3 Metallic Conductors 5.4 Conductor Properties and Boundary Conditions 5.5 The Method of Images 5.6 Semiconductors References Chapter 5 Problems Chapter 6 Dielectrics and Capacitance 6.1 The Nature of Dielectric Materials 6.2 Boundary Conditions for Perfect Dielectric Materials 6.3 Capacitance 6.4 Several Capacitance Examples 6.5 Capacitance of a Two-Wire Line 6.6 Using Field Sketches to Estimate Capacitance in Two-Dimensional Problems 6.7 Current Analogies References Chapter 6 Problems Chapter 7 Poisson's and Laplace's Equations 7.1 Derivation of Poisson's and Laplace's Equations 7.2 Uniqueness Theorem 175 7.3 Examples of the Solution of Laplace's Equation 7.4 Example of the Solution of Poisson's Equation 7.5 Product Solution of Laplace's Equation 7.6 Solving Laplace's Equation Through Numerical Iteration References Chapter 7 Problems Chapter 8 The Steady Magnetic Field 8.1 Biot-Savart Law 8.2 Ampbre's Circuital Law 8.3 Curl 8.4 Stokes' Theorem2 8.5 Magnetic Flux and Magnetic Flux Density 8.6 The Scalar and Vector Magnetic Potentials 8.7 Derivation of the Steady-Magnetic-Field Laws References Chapter 8 Problems Chapter 9 Magnetic Forces, Materials, and inductance 9.1 Force on a Moving Charge 9.2 Force on a Differential Current Element 9.3 Force Between Differential Current Elements 9.4 Force and Torque on a Closed Circuit 9.5 The Nature of Magnetic Materials 9.6 Magnetization and Permeability 9.7 Magnetic Boundary Conditions 9.8 The Magnetic Circuit 9.9 Potential Energy and Forces on Magnetic Materials 9.10 Inductance and Mutual Inductance References Chapter 9 Problems Chapter 10 Time-Varying Fields and Maxwell's Equations 10.1 Faraday's Law 10.2 Displacement Current 10.3 Maxwell's Equations in Point Form 10.4 Maxwell's Equations in Integral Form 10.5 The Retarded Potentials References Chapter 10 Problems Chapter 12 The Uniform Plane Wave 12.1 Wave Propagation in Free Space 12.2 Wave Propagation in Dielectrics 12.3 Poynting's Theorem and Wave Power 12.4 Propagation in Good Conductors: Skin Effect 12.5 Wave Polarization References Chapter 12 Problems Chapter 13 Plane Wave Reflection and Dispersion 13.1 Reflection of Uniform Plane Waves at Normal Incidence 13.2 Standing Wave Ratio 13.3 Wave Reflection from Multiple Interfaces 13.4 Plane Wave Propagation in General Directions 13.5 Plane Wave Rellection at Oblique Incidence Angles 13.6 Total Reflection and Total Transmission of Obliquely Incident Waves 13.7 Wave Propagation in Dispersive Media 13.8 Pulse Broadening in Dispersive Media References Chapter 13 Problems Chapter 14 Guided Waves and Radiation 14.1 Transmission Line Fields and Primary Constants 14.2 Basic Waveguide Operation 14.3 Plane Wave Analysis of the Parallel-Plate Waveguide 14.4 Parallel-Plate Guide Analysis Using the Wave Equation 14.5 Rectangular Waveguides 14.6 Planar Dielectric Waveguides 14.7 OpticalFiber 14.8 Basic Antenna Principles References Chapter 14 Problems Appendix A Vector Analysis A.1 General Curvilinear Coordinates A.2 Divergence, Gradient, and Curl in General Curvilinear Coordinates 479 A.3 Vector Identities Appendix B Units Appendix C Material Constants Appendix D Origins of the Complex Permittivity Answers to Odd-Numbered Problems |
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