工程電磁場

前言

“Engineering Electromagnetics”是一本國際知名的經典教材。作者W．H．Hayt．Jr．教授曾任教于美國普度大學，曾任電氣工程學院院長，獲普度大學最佳教師稱號；作者J．A．Buck為美國喬治亞理工學院電氣與計算機工程系教授。W.H．Hayt．Jr．的第一版距今已50年。兩位作者合作編寫的第6版于2001年出版，現在清華大學出版社引進出版的為本書的最新版本——第7版。本書影印版在出版時，為了與國內高校教學要求相適應，刪除了“傳輸線”（Yansmission Lines）一章，其它內容與國內電氣工程專業(yè)的教材基本一致。本書基本概念講述清晰，注重物理概念，淡化公式推導，強調自主學習，圖文并茂，定理和重要公式彩色加重印刷；每章后面配有大量習題，幾乎每章都有超過30道習題；并配有光盤，提供了一些場圖、動畫、問答測試題和關鍵內容的交互式學習。本書文筆流暢，可讀性好，其目的是使學生可以使用該教材進行獨立學習。因此，該書是電氣工程和相關專業(yè)大學本科電磁場課程的理想教材或參考書，尤其適合作為雙語教學或英文授課教材。相對于國內同類教材，本書在內容上更加注重工程實用性內容，如：包含了不規(guī)則形狀電極間的電容近似計算方法、磁路概念、鐵磁材料的非線性、波導等內容；對拉普拉斯方程和泊松方程的求解講述較系統(tǒng)，利用一章（第7章）內容，從一維方程求解過渡到二維分離變量法，進而介紹了差分法數值計算概念。本書在內容上的另一明顯特點是略去了一些中間環(huán)節(jié)的公式推導，加強了物理概念講述。

內容概要

本書特色：　　本書是一本國際知名的經典教材，第一版出版距今已50余年?！　”緯靖拍钪v述清晰，注重物理概念，淡化公式推導，強調自主學習，圖文并茂；每章后面配有大量習題?！　∨鋾獗P提供了彩色場圖、動畫、問答測試題和關鍵內容的交互式學習，內容豐富，適子自學。　　本書文筆流暢，可讀性好，其目的是使學生可以使用該教材進行獨立學習。因此，該書是電氣工程和相關專業(yè)大學本科電磁場課程的理想教材或參考書，尤其適合作為雙語教學或英文授課教材。

作者簡介

編者：(美國)海特(Hayt.W.H.) (美國)John A.BuckWilliam H. Hayt. Jr.（deceased） received his B.S. and M.S. degrees at PurdueUniversity and his Ph.D. from the University of Illinois. After spending four years inindustry, Professor Hayt joined the faculty of Purdue University, where he served asprofessor and head of the School of Electrical Engineering, and as professor emeritusafter retiring in 1986. Professor Hayt's professional society memberships includedEta Kappa Nu, Tau Beta Pi, Sigma Xi, Sigma Delta Chi, Fellow of IEEE, ASEE,and NAEB. While at Purdue, he received numerous teaching awards, including theuniversity's Best Teacher Award. He is also listed in Purdue's Book of Great Teachers,a permanent wall display in the Purdue Memorial Union, dedicated on April 23, 1999.The book bears the names of the inaugural group of 225 faculty members, past andpresent, who have devoted their lives to excellence in teaching and scholarship. Theywere chosen by their students and their peers as Purdue's finest educators.A native of Los Angeles, California, ,John A. Buck received his M.S. and Ph.D.degrees in Electrical Engineering from the University of California at Berkeley in1977 and 1982, and his B.S. in Engineering from UCLA in 1975. In 1982, he joinedthe faculty of the School of Electrical and Computer Engineering at Georgia Tech,where he has remained for the past 22 years. His research areas and publicationshave centered within the fields of ultrafast switching, nonlinear optics, and opticalfiber communications. He is the author of the graduate text Fundamentals of OpticalFibers （Wiley Interscience）, which is now in its second edition. When not glued tohis computer or confined to the lab, Dr. Buck enjoys music, hiking, and photography.

書籍目錄

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 ConductorsChapter 6 Dielectric and CapacitanceChapter 7 Poisson's and Laplace's EquationsChapter 8 The Steady Magnetic FieldChapter 9 Magnetic Forces,Materials,and InductanceChapter 10 Time-Varying Fields and Maxwell's EquationsChapter 11 The Uniform Plane WaveChapter 12 The Uniform Plane WaveChapter 13 Plane Wave Reflection and DispersionChapter 14 Guided Waves adn RediationAppendix A Vector AnalysisAppendix B UnitsAppendix C Material ConstantsAppendix D Origins of the Complex PermittivityAppendix E Answres to Odd-Numbered Problems

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