Field and Wave Electromagnetics David K. Cheng:[size=120%]
Field and Wave Electromagnetics (Addison-Wesley series in electrical engineering)
By
David K. Cheng
- Publisher: Addison-Wesley Educational Publishers Inc
- Number Of Pages: 672
- Publication Date: 1983-01-01
- ISBN-10 / ASIN: 0201012391
- ISBN-13 / EAN: 9780201012392
- Binding: Hardcover
Summary: A must have for learning electromagnetics.
Rating: 5
I am a self studier. I bought at least 6 to 7 different books on the subjects including book by Ulaby, Kraus, Popovic, Schwarz, Hayt, J.D. Jackson. This is about the best book. It explain the equations relative clear, quite detail on how to derive the equation. This and Ulaby are the two main book I use. This one is still better. Ulaby is too simplified.
There are a few equations that the reasoning is a little thin, but still is the closest to "the book".
Summary: The best book on undergraduate electromagnetics!
Rating: 5
There are lot of books on undergraduate electromagnetics. This would be the number one in my list.The books I have and recommend are
1) D.K Cheng
2) Hayt and Buck
3) Ulaby
4) Edminister - Schaum's outline electromagnetics.
5) Spiegel - Schaum's outline vector calculus.
6) You should use Finney and George - calculus along with these books.
The book you should avoid is one by Kraus!!.
If you want to master undergraduate electromagnetics, you should have the 6 books!. There are people who complain about (1), (2) and (3). This is because their mathematical background is not strong. So I recommend (4), (5) and (6) to be used along with (1), (2) and (3).
You simply cannot write books better than (1),(2) and (3).
Summary: lowest price for small trade off
Rating: 5
the book was in a decent condition with only one problem. The picture showed hard cover and US edition but recieved a low-price edition with paper cover but the contents are the same.
Summary: Second will be better
Rating: 4
This is the textbook for my sophomore electromagnetics in the electrical engineering. I have to admit I really hated this class then. One is that there are equations here and there and it usually clouds the issue. Another reason is that the author uses the
deduction method to describe this topic. It is quite different from the traditional way which goes following the historical developments.
For some reasons, I need to refresh electromagnetics in later years. I re-studied this book and then found it written pretty well this time. It is well-organized and systematic. One weak spot is the explanation for physics. I think it should be made better so that it is easier for readers to absorb the knowledge instead of confused by those mathematical equations.
This book is rather classic, which means it stays at the balance of electromagnetic statics and dynamics. Many recent electromagnetic textbooks are more focused on electromagnetic waves at the expense of the electromagnetic statics. I don't think this is a wise decision since electromagnetic statics is still very important in the real world
applications, for example RF IC design.
This book is published almost 20 years ago. But don't regard it as out of date. Based on my acamedic and industrial experience, it is still the best engineering electromagnetic textbook for undergraduates.
Summary: Seeing God (not the author, the creator of the world)
Rating: 5You will finally understand what light is - 10 years after you take the course.
Yes, 2 years after you take the
course, you get to arrange waves that can go easily back and forth from wave equations(insane vector calculus) to circuit equations(simple V=IR).
Yes, combined with clever Fourier math, you get to calculate impedance as vector reflection waves, so that you see (through Smith-Chart
night vision like mental glasses) the waves invisible to human eyes (but visible to some animals) and make them oscillate/up-down-mix as an EE engineer making a living.
But James Maxwell's math is the only thing interesting in the world, which the book says that well. God made the waves and nothing more. If you want to make stories out of the context or take words out of the context (many books try and do), you give yourself trouble. Yes, we give ourselves troubles all our life. And you will see that in this book. This is life.
Everyone in this world needs to understand how a wave of light is made.
Table of Contents
1. The Electromagnetic Model.
Introduction. The Electromagnetic Model. Si Units and Universal Constants. Review Questions.
2. Vector Analysis.
Introduction. Vector Addition and Subtraction. Products of Vectors. Orthogonal Coordinate Systems. Integrals Containing Vector Functions. Gradient of a Scalar Field. Divergence of a Vector Field. Divergence Theorem. Curl of a Vector Field. Stoke's Theorem. Two Null Identities. Helmholtz's Theorem. Review Questions. Problems.
3. Static Electric Fields.
Introduction. Fundamental Postulates of Electrostatics in Free Space. Coulomb's Law. Gauss's Law and Applications. Electric Potential. Conductors in Static Electric Field. Dielectrics in Static Electric Field. Electric Flux Density and Dielectric Constant. Boundary Conditions for Electrostatic Fields. Capacitances and Capacitors. Electrostatic Energy and Forces. Solution of Electrostatic Boundary-Value Problems. Review Questions. Problems.
4. Solution of Electrostatic Problems.
Introduction. Poisson's and Laplaces' Equations. Uniqueness of Electrostatic Functions. Method of Images. Boundary-Value Problems in Cartesian Coordinates. Boundary-Value Problems in Cylindrical Coordinates. Boundary-Value Problems in Spherical Coordinates. Review Questions. Problems.
5. Steady Electric Currents.
Introduction. Current Density and Ohm's Law. Electromotive Force and Kirchoff's Voltage Law. Equation of Continuity and Kirchoff's Current Law. Power Dissipation and Joule's Law. Boundary Conditions for Current Density. Resistance Calculations. Review Questions. Problems.
6. Static Magnetic Fields.
Introduction. Fundamental Postulates of Magnetostatics in Free Space. Vector Magnetic Potential. The Biot-Savart Law and Applications. The Magnetic Dipole. Magnetization and Equivalent Current Densities. Magnetic Field Intensity and Relative Permeability. Magnetic Circuits. Behavior of Magnetic Materials. Boundary Conditions for Magnetostatic Fields. Inductances and Inductors. Magnetic Energy. Magnetic Forces and Torques. Review Questions. Problems.
7. Time-Varying Fields and Maxwell's Equations.
Introduction. Faraday's Law of Electromagnetic Induction. Maxwell's Equations. Potential Functions. Electromagnetic Boundary Conditions. Wave Equations and their Solutions. Time-Harmonic Fields. Review Questions. Problems.
8. Plane Electromagnetic Waves.
Introduction. Plane Waves in Lossless Media. Plane Waves in Lossy Media. Group Velocity. Flow of Electromagentic Power and the Poynting Vector. Normal Incidence of Plane Waves at a Plane Conducting Boundary. Oblique Incidence of Plane Waves at a Plane Conducting Boundary. Normal Incidence of Plane Waves at a Plane Dielectric Boundary. Normal Incidence of Plane Waves at Multiple Dielectric Interfaces. Oblique Incidence of Plane Waves at a Plane Dielectric Boundary. Review Questions. Problems.
9. Theory and Application of Transmission Lines
Introduction. Transverse Electromagnetic Wave Along a Parallel-Plate. Transmission Line General Transmission-Line Equations. Wave Characteristics on Finite Transmission Lines. Transients on Transmission Lines. The Smith Chart. Transmission-Line Impedance Matching. Review Questions. Problems.
10. Waveguides and Cavity Resonators.
Introduction. General Wave Behaviors Along Uniform Guiding Structures. Parallel-Plate Waveguide. Rectangular Waveguides. Circular Waveguides. Dielectric Waveguides. Cavity Resonators. Review Questions. Problems.
11. Antennas and Radiating Systems.
Introduction. Radiation Fields of Elemental Dipoles. Antenna Patterns and Antenna Parameters. Thin Linear Antennas. Antenna Arrays. Receiving Antennas. Transmit-Receive Systems. Some Other Antenna Types. Review Questions. Problems.
Appendix A: Symbols and Units.
Appendix B: Some Useful Material Constants.
Bibliography.
Answers to Selected Problems.
Index.
Back Endpapers.
電磁學的聖經本!
這本書可是很有名的阿
難得看到電子書
非常感謝樓主大大無私分享
Field and Wave Electromagnetics David K. Cheng.part1
ص
[ 本帖最后由 drjiachen 于 2008-12-25 21:28 编辑 ]
Field and Wave Electromagnetics David K. Cheng.part2-7
[ 本帖最后由 drjiachen 于 2008-12-26 15:06 编辑 ]
谢谢大大喽,小弟正需要它,:29bb,但是,好像少了part5请大大再上传一次谢谢喽
[ 本帖最后由 hky_tw 于 2008-12-26 02:03 编辑 ]
经典,经典,大家之言,下下来好好学习。。。。。。。。。
谢谢楼主。。。。。。。。。。。。。。。。。。。。。。。。
好贴~~谢谢分享~:thumb :thumb
D.K.Cheng的作品,应该读一下。谢谢楼主的分享。
谢谢拉:27bb :27bb :27bb
经典,经典,大家之言,下下来好好学习。。。。。。。。
少了一个压缩文件啊,楼主再上传一次吧
少传了一个,已经补齐。
:11bb :11bb :11bb :11bb
感谢楼主分享
:11bb :11bb :11bb :11bb :11bb
thank you for the job
经典电磁教材,感谢楼主分享!:11bb :29bb
谢谢分享!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
thank you for the job
听说很好 下来瞅瞅 复习一下基础电磁学
:51bb :53bb :53bb
经典,经典,大家之言,下下来好好学习
郑均先生的书是很不错的,嘿嘿。:11bb :27bb
電磁學的聖經本!
這本書可是很有名的阿
難得看到電子書
非常感謝樓主大大無私分享
:30bb :30bb :29bb :29bb
貌似很经典。。。。。。。。。。。。。
谢谢啊。。。。。。。。。。。。。。。。
下载下来看看这本书不错啊
谢谢分享!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
thanks very much!!!!!!!!!!!!!!!!
thank you for the job
:11bb :11bb :11bb
:30bb :30bb :30bb :30bb
ok!dowmload to see
開學就要用了~先下來看看
謝謝分享
good :11bb :27bb :29bb
很好的书籍,大家一起欣赏吧,谢谢!
谢谢了。好不容易才在这里看到。真的不容易啊
thanks a lot bz.....
thank you for the job, good
又是一本经典名著,顶一个。
扫描质量确实有些差。
:30bb :30bb :30bb lz for sharing this book
:27bb :30bb 谢谢分享!已收藏!
好书,
很难找的呢,
楼主万岁!:30bb
经典中的经典啊,不知道我是不是又不能下载
谢天谢地被我下载到了,我是何等的幸运啊。
很有名的经典著作,只可惜扫描质量不够理想,还是要谢谢。
经典好书
must have book for electromagnetics
thank you very much!
相当经典的好书,讲述的很好,顶一个。
Thank for your sharing
感谢楼主分享:30bb :30bb
thanks you i need it
感谢楼主分享,不知道是不是清晰版的!!!
終於有看到有人分享大衛陳的電磁學課本了
真是感激啊
電磁學的聖經本!
這本書可是很有名的阿
難得看到電子書
非常感謝樓主大大無私分享
这个网站太好了,我会记住他的,感谢楼主免费共享
:11bb :11bb :11bb
:11bb :11bb :11bb
This is a grest book , thanks !
这可是极品好处,非常感谢。lol:11bb
全英啊。。。
看看下 希望不是太基础的东东。。。
好像是balanis的书的节选呵。。。
顶。。。。。。。。。。。。。。。。。。。。。。
是一本很好的電磁學書~~
謝謝大大的分享!!
是影印版地吗?
感谢楼主分享!........................................
83年的,古老啊
1# drjiachen
:52bb
:51bb ding ah
:53bb
1# drjiachen
lai, zai ding yi ger
:51bb
:51bb :51bb
:27bb
zan!
duoxie louzhu
楼主,这个版本的第11章开始后全无,仅515页,是否有更全的?第11章很重要的
好东西,一直想好好学
xiexiele :31bb:23de
谢谢分享!!!!!!!!!!!!!
太好了:31bb超赞的
hao!!!!!!!
:31bb:31bb:31bb
谢谢楼主的分享。。。。。。。。。
谢谢啦,正在寻找。
很好的书,经典!
下来看看,顶起来!!!
:31bb还差一个分卷
研究下 看起来很不错的
吐血置顶
经典电磁教材,感谢楼主分享:31bb
听说这本书是最棒的,一定要看看
thank you for the job
顶一下,谢谢分享!
谢谢大大喽,小弟正需要它,经典电磁教材
謝謝分享^^!!
:31bb
顶一下,谢谢分享!
感谢分享!!
非常难得的书籍,谢谢
多谢楼主
下载了
电磁经典教材,跟大家一起下下来,好好学习。
本帖最后由 huangfeihong88 于 2009-11-22 17:03 编辑
很好的资源 谢谢 楼主啊
正在找经典的书籍,只是英文不是很好,理解起来不知道会成什么样啊
谢谢哈。。。。。。。
好书谢谢分享
thank you for the job
正好需要謝謝
好书好书~~
Thanks for your sharing.
谢谢楼主了
{:7_1234:}{:7_1234:}{:7_1234:}
我草拟骂了个几把的饲养,下载还要回复
还是老外的比较经典!
many thanks
:27bb{:7_1234:}
看看 谢谢楼主分享{:7_1234:}
谢谢大大喽,小弟正需要它
可能會用到,感謝
好东西!谢谢楼主
我回复,我下载
{:7_1272:}{:7_1272:}
据说相当经典
bucuodeshu不错的书,谢谢分享
多谢分享!
先拜读一下再说{:7_1234:}
此人大牛
多谢楼主分享了
好东西啊
这个怎么解压不了?谁有能解压的啊,麻烦上传一下吧
感谢楼主分享 ~~
这本书经典值得好好学习
:21bb:51bb:53bb
:53bb:53bb
thanks for sharing
thank you very much
thanks very much
回复 drjiachen 的帖子
多谢,希望不错。。。。。。。。。。
真的很不错呀{:7_1237:}
我很需要它,谢谢啊
very good book
hao shu wo xi huan
好书啊,谢谢
看啊看安娜难啊难
{:7_1234:}{:7_1234:}{:7_1234:}{:7_1234:}{:7_1234:}{:7_1234:}{:7_1234:}{:7_1234:}{:7_1234:}{:7_1234:}{:7_1234:}{:7_1234:}
非常感謝樓主大大無私分享
xiexie !!!!!!!!!
谢谢分享
{:7_1234:}
经典电磁教材
Oh!NO!drjiachen,
The one you upload is 1st ed @1983 not 2nd ed @1989.
Field and Wave Electromagnetics David K. Cheng
十分感谢
这个不太清晰啊。
太经典了
这个很经典么
thanks
感謝無比啊
kankan
好書,謝謝!
這真的是很難得看到~這本實在是太經典了!感謝樓主分享~
amazing
盛大的撒
Good Book
感谢楼主!!
谢谢
看看楼主的资料
我想看看。。。
很好的书
好书,好人品!
让田辉和后台还挺坏头晕乎乎
Field and Wave Electromagnetics David K. Cheng: Field and Wave Electromagnetics David K. Cheng.part1.rar
