青岛大学研究生课程教学大纲

课程编号：     4572044         课程名称：    工程电磁场          

( Course No.  4572044  : Course Name   Engineering Electromagnetic Fields )

一、课程简介（Description）              

1.   学分/学时（Credit/Hours）：

2学分/32学时  2 Credits/32 Hours

2.   开课学期（Semester）：

第2学期 2^st Semester

3.   内容简介（Introduction）：（要求不少于200字）

本课程是电气工程及其自动化专业的一门专业选修课程。它讲授物质电磁属性存在的性质及电磁波运动形式及其规律。该课程主要目的和任务是培养学生：在大学物理和高等数学的基础上，系统掌握电磁场的基本概念、基本原理和基本规律，具备用场的观点对电气工程中的电磁现象和电磁过程进行定性分析与判断的初步能力；了解电磁场定量分析的基本途径，为进一步学习和应用各种较复杂的电磁场计算方法打下基础；掌握电场、磁场的基本性质及电磁波的运动形式，为后续的相关学习打下坚实的理论基础。通过电磁场理论的逻辑推理，使同学具有科学的思维方法和勇于探索问题、解决问题的能力。

Introduction：This course is an electivecourse in electrical engineering and automation. It teaches the properties ofelectromagnetic properties of matter and the forms and laws of electromagneticwaves. The main purpose and task of this course is to cultivate students: onthe basis of university physics and higher mathematics, the basic concepts,basic principles and basic laws of electromagnetic fields are systematicallymastered, and the preliminary ability of qualitative analysis and judgment ofelectromagnetic phenomena and electromagnetic processes in electricalengineering is provided by the viewpoint of field. Understand the basic way ofelectromagnetic field quantitative analysis, and lay a foundation for furtherstudying and applying various complicated electromagnetic field calculationmethods. Mastering the basic properties of electric field and magnetic fieldand the movement form of electromagnetic wave, lay a solid theoreticalfoundation for subsequent related learning.

4.        教材名称（Textbooks）：

工程电磁场（第二版），杨先章主编，中国电力出版社，2018

Engineering electromagneticfield (Second Edition), edited by Yang Xianzhang, China Electric Power Press,2018

5.      先修课程（Prerequisites）：

大学物理，高等数学. College physics, highermathematics.

6.      授课对象（Teaching objects）：

电气工程学科学术型、专业学位型硕士研究生

Academic and professional degree masters in electricalengineering

7.      适合专业（Suited Professions）：

电气工程、控制科学与工程专业

Electrical Engineering, Control Science and Engineering

8.      教学语言（Language of Instruction）：

汉语 Chinese

9.      参考文献（References）：

（1） 《电磁场与电磁波》，谢处方，高等教育出版社；

（1）electromagnetic fields and electromagneticwaves, Xie prescription, higher education press;

（2） 《工程电磁场导论》，冯慈璋，等，高等教育出版社；

（2）introduction to engineeringelectromagnetic fields, Feng Cizhang, et al.

（3） 《工程电磁场》，王泽忠，等，清华大学出版社；

（3） engineering electromagnetic field, WangZezhong, et al. Tsinghua University press;

10.  任课教师及团队（Coordinators & Team）：

任课教师：王红红

Lecturer:Wang Honghong

教学团队：王红红、王春芳、郑建芬

Team: Wang Honghong, Wang Chunfang,  Zheng Jianfen

二、教学目标（EducationalObjectives）

       介绍该课程在本学科研究生课程体系中的作用、以及要求学生要掌握的知识、方法和能力等。

Introduce the role of this course in the discipline'sgraduate curriculum system, and the knowledge, methods and capabilitiesstudents need to master:

1.目标1（Objective 1）：

矢量分析及场的概念

（1）矢量的代数运算

（2）场的基本概念

（3）标量场的梯度

（4）矢量场的散度和旋度

（5）矢量积分定理

The concept of vector analysis and field

(1) algebraic operation of vector

(2) the basic concept of the field

(3) the gradient of the scalar field

(4) the divergence and curl of the vector field

(5)vector integral theorem

2.目标2（Objective2）：

静电场

（1）电场强度

（2）高斯定理

（3）静电场基本方程

（4）静电场边值问题

（5）静电场问题的计算方法

（6）静电能量与力

electrostatic field

(1) electric field strength

(2) Gauss's theorem

(3) basic equations of the electrostatic field

(4) the boundary value problem of electrostatic field

(5) the calculation method of the electrostatic fieldproblem

(6) electrostatic energy and force

3.目标3（Objective3）：

恒定电场

（1）电流

（2）电动势和局外场强

（3）恒定电流场的基本方程

（4）恒定电流场与静电场的比拟

Constant electric field

(1) current

(2) electromotive force and local outfield strength

(3) the basic equation of the constant current field

(4) comparison of constant current field andelectrostatic field

4.目标4（Objective4）：

恒定磁场  

（1）磁感应强度

（2）安倍环路定理

（3）恒定磁场的基本方程

（4）恒定磁场的边值问题

（5）磁位

（6）标量磁位

（7）磁场能量和磁场力

（8）磁路及其计算

Constant magnetic field

(1) magnetic induction intensity

(2) the Abe loop theorem

(3) the basic equation of a constant magnetic field

(4) the boundary value problem of a constant magneticfield

(5) magnetic position

(6) scalar magnetic position

(7) magnetic field energy and magnetic force

(8) magnetic circuit and its calculation

5.目标5（Objective5）：

时变电磁场      

（1）法拉第电磁感应定理

（2）位移电流

（3）麦克斯韦方程组

（4）时变电磁场的边界条件

（5）时变电磁场的能量与能流

（6）正弦电磁场

（7）波动方程

（8）时变电磁场中的位函数

Time-varying electromagnetic field

(1) Faraday's electromagnetic induction theorem

(2) displacement current

(3) Maxwell equation set

(4) boundary conditions of time-varying electromagneticfields

(5) energy and energy flow of time-varyingelectromagnetic field

(6) sinusoidal electromagnetic field

(7) wave equation

(8) the bit function in the time-varying electromagneticfield

6. 目标6（Objective6）：

平面电磁波

（1）无耗媒质中的平面电磁波

（2）导电媒质中的平面电磁波

（3）电磁波的极化

（4）平面电磁波的正入射

（5）平面电磁波的反射与折射

Plane electromagnetic wave

(1) the plane electromagnetic wave in the lossless medium

(2) the plane electromagnetic wave in the conductivemedium

(3) polarization of electromagnetic wave

(4) positive incidence of a plane electromagnetic wave

(5) reflection and refraction of plane electromagneticwaves

7. 目标7（Objective7）：

均匀传输线中的导行电磁波

（1）无损耗均匀传输线方程

（2）无损耗均匀传输线的传播特性

（3）无损耗传输线中波的反射和透射

（4）无损耗传输线的入端阻抗

（5）无损耗传输线的阻抗匹配

（6）有损耗均匀传输线

Guided electromagnetic wave in a uniform transmissionline

(1) a lossless uniform transmission line equation

(2) propagation characteristics of lossless uniformtransmission line

(3) reflection and transmission of waves in a losslesstransmission line

(4) the endpoint impedance of a lossless transmission lin

(5) impedance matching of lossless transmission line

(6)a lossy uniform transmission line

三、教学内容/学时分配/授课方式（TopicsCovered/Credit Hours/Lecture Model）

四、考评方法（EvaluationMethod）

可采取（但不局限于）以下方式进行课程学习效果考核：

Can take(but not limited to) the following ways to evaluate the effect of courselearning:

1.        作业（Homework）：简要说明对作业的要求。Brief description of homework requirements

以课后题为主，检查学习情况。

Take the subject of after class,check the learning situation.

2.    研究项目（Major Project）：简要说明对研究项目的要求。Briefdescription of Major Project requirements

3.    书面报告（Written Reports）：简要说明对研究报告的要求。Briefdescription of Written Reports requirements

论述学完该课程后的感想与收获。

The thoughts and gains after the study of the course arereported.

4.    口头报告（Oral Reports）：简要说明对宣讲报告的要求。Briefdescription of Oral Reports requirements

 简要用PPT形式汇报本课程中感兴趣的内容与知识点。

Brieflyreport the contents and knowledge of interest in this course with PPT form..

5.    课内实验（Experiments）：简要说明对课内实验的要求。Briefdescription of Experiments requirements

6.    课堂提问与讨论（Questionsand Discussions）：简要说明对课堂提问与讨论的要求。Brief description of Questions and Discussionsrequirements

通过课堂提问与讨论，加深对相关概念和疑难问题的理解，提高课程学习效果。

Through classroom questions and discussions, to deepenthe understanding of related concepts and difficult issues and improve theeffect of the course learning.

7.    期末考试（Exams）：简要说明对期末考试的要求。Briefdescription of Exams requirements

期末考试采取闭卷方式，考题包括填空、简答和计算等类型。综合考核本课程所授知识的掌握程度。

The final exam adopts closed-book approach which includestypes such as blank fillings, short answers and calculations. A comprehensiveassessment of the degree of mastery of knowledge in this course.

五、成绩比例（Grading Scale）

针对课程所采用的各类考评办法，给出以百分计算的考评成绩及其在总成绩中所占的比例，最终给出该门课程的学习成绩（以百分计）。

For thevarious evaluation methods adopted in the course, the percentage of evaluationgrading results and their grading scales are given, to obtain the academicperformance (in percent) of the course.

六、预期效果（Assessmentof Learning Outcomes）

针对第二项所设置各个教学目标，通过上述内容的学习和所采取的考评方法，预估学生学完本门课程后所能掌握和了解的知识、方法和技能，以及所具备的具体能力等。

Aiming ateach teaching goal set in Section 2 and through the learning contents above andthe evaluation methods, to assess the knowledge, methods and skills that thestudents can master and understand after completing the course, and theabilities they equip.

1.目标1（Objective 1）：

理解学习工程电磁场的意义；掌握矢量分析的基本概念和定律；了解场论中梯度、散度、旋度、通量和环量等基本概念。

Understandingthe significance of learning the electromagnetic field of engineering; Masterthe basic concepts and laws of vector analysis. Understand the basic conceptsof gradient, divergence, curl, flux and loop in field theory.

2.目标2（Objective 2）：

理解电场强度与电位的定义、电场强度线积分与路径无关的性质和电场强度与电位之间的关系；了解静电场中的导体和电介质，极化强度和电位移向量；掌握高斯通量定理和无旋性构成的静电场的基本方程及电场强度、电位和电位移在不同媒质分界面的边界条件，泊松方程和拉普拉斯方程，了解求解边值问题的常用的方法和场的实验研究；理解边值问题解答的唯一性；掌握简单的静电场问题的计算方法；理解能量、能量密度和力的概念。

Understandthe definition of electric field intensity and potential, the relationshipbetween electric field intensity line integral and path independent, and therelationship between electric field intensity and potential. Understand thepolarization and electric displacement vectors of conductors and dielectrics inelectrostatic field. The basic equations of the Gauss flux theorem and the nonrotation electrostatic field and the boundary conditions of the electric fieldintensity, potential and potential shift at the interface of different media,Poisson equation and Laplasse equation are mastered. Understand the commonlyused methods and field experimental research for solving boundary valueproblems. Understanding the uniqueness of the solution of the boundary valueproblem; Grasp the simple calculation method of electrostatic field; understandthe concept of energy, energy density and force.

3.目标3（Objective 3）：

理解电流与电流密度的定义、欧姆定律的微分形式、功率密度和电流连续性原理；掌握导电媒质中的恒定电场的基本方程和不同媒质分界面上的边界条件；理解导电媒质中的恒定电场静电场的比拟。

Understandthe definition of current and current density, the differential form of Ohm'slaw, the principle of power density and current continuity; Mastering the basicequation of constant electric field in conductive medium and the boundaryconditions at different media interfaces. Understanding the analogy of staticelectric field in conducting medium.

4.目标4（Objective 4）：

理解磁感应强度、磁场强度、磁化强度的定义及三者间关系和磁通连续性原理；了解磁偶极子、偶极矩、磁化率和磁化电流的概念；理解并会用毕-沙定律和安培环路定律；掌握恒定磁场的基本方程和镜象电流法；理解磁感应强度、磁场强度、标量磁位、矢量磁位在不同媒质分界面上的边界条件；掌握两种位函数满足的方程；了解磁场能量和磁场力；了解磁路的概念和计算。

Understandthe definition of magnetic induction intensity, magnetic field intensity,magnetization and the relationship between the three and the principle ofmagnetic flux continuity. Understand the concept of magnetic dipole, dipolemoment, magnetic susceptibility and magnetization current. Understand and useBi sand law and ampere loop law; Grasp the basic equation of constant magneticfield and mirror current method. Understand the boundary conditions of magneticinduction intensity, magnetic field intensity, scalar magnetic potential andvector magnetic potential at different media interfaces. Mastering the equationsatisfied by two kinds of bit functions. To understand the energy of themagnetic field and the force of the magnetic field; Understanding the conceptand calculation of magnetic circuit

5.目标5（Objective5）：

理解电磁感应定律、时变条件下的电流连续性方程；掌握麦克斯韦方程及其物理意义；理解坡印廷矢量的含义并会应用坡印廷定理分析电磁能传输的问题；了解动态位与场量间的基本关系；了解正弦电磁波的基本特征。

Understand the law ofelectromagnetic induction and the continuity equation of electric current undertime-varying conditions. Mastering the Maxwell equation and its physicalmeaning; Understand the meaning of poing Ting vector and apply the poing Tingtheorem to analyze the problem of electromagnetic energy transfer. The basicrelationship between the dynamic position and the field quantity is understood.Understanding the basic characteristics of sinusoidal electromagnetic wave.

6.目标6（Objective 6）：

掌握理想介质中传播的均匀平面电磁波的波动方程及其解；熟练掌握电磁波在理想介质中的传播特性，包括均匀平面电磁波的波速、波数和相移常数、波长，波阻抗，能量密度和能流密度；掌握电磁波的极化和均匀平面电磁波的性质；掌握电磁波在介质分界面上的反射定律与折射定律，平行极化波无反射的布儒斯特角和全反射的临界角，以及正入射时的反射系数和透射系数；理解平行极化波和垂直极化波的菲涅尔公式及非均匀表面波。

Masteringthe wave equation and solution of uniform plane electromagnetic wavepropagating in ideal medium; The propagation characteristics of electromagneticwave in ideal medium are mastered skillfully, including wave velocity, wavenumber and phase shift constant, wavelength, wave impedance, energy density andenergy flow density of uniform plane electromagnetic wave. Grasp thepolarization of electromagnetic waves and the properties of uniform planeelectromagnetic waves. The law of reflection and refraction of electromagneticwave on the interface of medium, the critical angle of Brewster angle and totalreflection without reflection, and the reflection coefficient and transmissioncoefficient at positive incidence; Finel formula for understanding parallelpolarized wave and vertical polarized wave and non-uniform surface wave.

7.目标7（Objective7）：

熟练掌握均匀传输线的稳态分析方法；深刻理解电压波和电流波的传播特性 ( 行波、驻波、匹配等 ) ；掌握有损耗传输线的无畸变条件；理解电磁波在有耗媒质中的传播特性及电磁波的相速和群速；了解有耗媒质的复磁导率。

Master the steady state analysis method of uniform transmissionline.  A deep understanding of thepropagation characteristics of voltage and current waves (traveling wave,standing wave, matching, etc.); Mastering the distortion free conditions of theloss transmission line. Understanding the propagation characteristics ofelectromagnetic waves in lossy media and the phase velocity and group velocityof electromagnetic waves; Understanding the complex permeability of a lossymedium.

  工程电磁场（第二版），杨先章主编，中国电力出版社，2018

Engineering electromagneticfield (Second Edition), edited by Yang Xianzhang, China Electric Power Press,2018

 《电磁场与电磁波》，谢处方，高等教育出版社；

electromagnetic fields and electromagneticwaves, Xie prescription, higher education press;

 《工程电磁场导论》，冯慈璋，等，高等教育出版社；

introduction to engineeringelectromagnetic fields, Feng Cizhang, et al.

 《工程电磁场》，王泽忠，等，清华大学出版社；

 engineering electromagnetic field, WangZezhong, et al. Tsinghua University press;