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hi,小mooc
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Electromagnetic Field
第1次开课
开课时间: 2020年05月06日 ~ 2020年08月15日
学时安排: 3h/week
当前开课已结束 已有 180 人参加
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课程评价(873)
spContent=Electromagnetic Field,a magic field! This course would give you a magic key to enter the electromagnetic world. Using the "field" eyes to discover field of electrical engineering, to analyze and calculate the electromagnetic phenomena, to be fascinated by electromagnetic field!
Electromagnetic Field,a magic field! This course would give you a magic key to enter the electromagnetic world. Using the "field" eyes to discover field of electrical engineering, to analyze and calculate the electromagnetic phenomena, to be fascinated by electromagnetic field!
—— 课程团队
课程概述

Electromagnetic phenomenon is one of the most important phenomena in nature, which has always been an important issue for ancient scientists or the present scientists. For the students of electrical and electronic information engineering, the core of their major courses is the embodiment of electromagnetic phenomena in a specific range and under specific conditions.

Using the qualitative process and quantitative method to analyze electromagnetic phenomena is the necessary professional knowledge and skills for an electrical engineering student. The electromagnetic field analyzing principle and method also are the theoretical base of electrical application disciplines. The electromagnetic field theory is the theoretical base of electrical, electronic and information technology, the most essential description of macro electromagnetic phenomenon, the" key” to open the door of electrical engineering castle.

Electromagnetic Field is the prerequisite course for Electrical MachineElectrical Engineering Theory and other specialized courses of electrical engineering. 

Electromagnetic Field needs the prerequisite courses such as Advanced MathematicsCollege Physics, Vector Analysis and Field Theory.  The course asks the students to establish the viewpoint of "field" and provide theoretical and technical support for the follow-up professional courses. The course would lead students to understand the theorem and the physical meaning of the Maxwell equations and mathematical expressions, to master the vector analysis method of  basic electromagnetism phenomenon, to describe the essential physical concept of electromagnetic field based on summarizing the basic law of experiment. 

After learning this course, students will have completely knowledge about the theorem and the physical meaning of the Maxwell equations and mathematical expressions. It includes the static and time-varing electromagnetic fields. The common question representation methods and solving methods for electromagnetic field  are known. The main objective is to lay the ground work for future intensive study in electromagnetic field.






授课目标
  • Understand the basic laws of the establishment and development of electromagnetic field theory,

  • Understand the important role of electromagnetic field analysis and application in various engineering technologies

  • Understand Maxwell's equations and their constituent relations

  • Understand various electromagnetic phenomena and basic concepts in electrostatic field, constant magnetic field and time-varying electromagnetic field.

  • The ability to analyze and solve electromagnetic problems including in electrostatic field, constant magnetic field and time-varying electromagnetic field.

 


课程大纲
Chapter I Physical Basis of Electromagnetic Field
课时目标:Through the study of this chapter, we can know the source of electric field and magnetic field, understand the concept of polarization and magnetization, review the definition of basic physical quantities of electromagnetic field and basic experimental laws of electromagnetic field we have learned before, including Coulomb's law, Ampere's law, Faraday's law of electromagnetic induction, and summarize the integral form of Maxwell's equations.
1.1 Introduction
1.2 Source of Electromagnetic Field
1.3 Coulomb’s Law and Electric Field Intensity
1.4 Dielectric Polarization
1.5 Ampere’s Law and Magnetic Field
1.6 Magnetization
1.7 Faraday’s law
1.8 Displacement Current
1.9 Maxwell’s Equation
Chapter II Electrostatic Field
课时目标:Through the study of this chapter, we can understand the source and conservation of the static electric field in differential forms, know the boundary conditions on the interface, solve the Poisson equation, Laplace equation and boundary value problem of the electrostatic field, and master a static field and uniqueness theorem of solution, image method.
2.1 Characteristics of Electrostatic Field
2.2 Potential
2.3 Differential Equation of Electrostatic Field
2.4 Boundary Conditions of Electrostatic Field
2.5 Conductor Properties
2.6 Boundary Conditions for Perfect Dielectric Materials
2.7 The Method of Images
2.8 The Method of Electric Axis
2.9 Capacitance
2.10 Electrostatic Shielding
2.11 Energy in Electrostatic Field
2.12 Force in Electrostatic Field
Chapter III Steady Current Field
课时目标:Through the study of this chapter, we can understand the principle of current continuity, master the solution method of the differential equation of steady current field, understand the various analogy relations between the constant electric field in the conductive medium and the non-charged area of the electrostatic field, master the calculation of conductance and ground resistance.
3.1 Electromotive Force of The Source
3.2 Characteristics of Steady Current Field
3.3 Boundary Conditions for Steady Current Field
3.4 Electrostatic Analogy Method
3.5 Resistance
3.6 Grounding Resistance
3.7 Step Voltage
Chapter IV Steady Magnetic Field
课时目标:The fields produced by the steady currents behaves as the function of the force acting on the magnet and the conductor carrying currents are called steady magnetic fields. Through the study of this chapter, we can understand the field analysis method of the steady magnetic field, understand the definition of scalar and vector magnetic potentials, and master the solution of simple one-dimensional constant magnetic field problem, master the calculation of inductance and mutual inductance, master various methods of calculating magnetic field energy and magnetic field force.
4.1 Biot-Savart law
4.2 Characteristics of Steady Magnetic Field
4.3 The Scalar Magnetic Potential
4.4 Vector Magnetic Potential
4.5 The Method of Images of Steady Magnetic Field
4.6 Inductance
4.7 Energy in Steady Magnetic Field
4.8 Force in Steady Magnetic Field
4..9 Ferromagnetic Shielding
Chapter V Time-Varying Electromagnetic Field
课时目标:Through the study of this chapter, we can deeply understand the differential form of Maxwell equations and its physical significance, master the causality between electric field and magnetic field, master the method of analyzing electromagnetic energy flow by Poynting vector, understand the basic radiation principles.
5.1 Characteristics of Time-Varying Electromagnetic Field
5.2 Poynting's Theorem
5.3 Retarded Potentials
5..4 D'Alembert Equations
5.5 Complex Analysis of Sinusoidal Electromagnetic Field
5.6 Basic Radiation Principles
5.7 Propagation of Electromagnetic Field
展开全部
预备知识

Electromagnetic Field is the course designed for the undergraduate students of electrical engineering specialties Before taking this class, the students are required to have the knowledge of Advanced Mathematics, College Physics, Vector Analysis and Field Theory. This course can also be taken by the students of Control Science and Engineering, electronic information and electric information.


参考资料

Engineering Electromagnetics,  Eighth Edition,

William H. Hayi. Jr. John A. Buck

Shandong University
1 位授课老师
仲慧

仲慧

Associate Professor

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