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ISBN:0387201564
Author: Nathan Ida
ISBN13: 978-0387201566
Title: Engineering Electromagnetics
Format: lrf txt lrf doc
ePUB size: 1477 kb
FB2 size: 1245 kb
DJVU size: 1761 kb
Language: English
Category: Engineering
Publisher: Springer; 2nd edition (August 1, 2007)
Pages: 1236

Engineering Electromagnetics by Nathan Ida



FREE shipping on qualifying offers. This text not only provides students with a good theoretical understanding of electromagnetic field equations but it also treats a large number of applications. No topic is presented unless it is directly applicable to engineering design or unless it is needed for the understanding of another topic. Story time just got better with Prime Book Box, a subscription that delivers hand-picked children’s books every 1, 2, or 3 months - at 40% off List Price.

Engineering Electromagnetics. Authors: Ida, Nathan. More than 400 examples and exercises, exercising every topic in the book. Includes 600 end-of-chapter problems, many of them applications or simplified applications. Discusses the finite element, finite difference and method of moments in a dedicated chapter. price for USA in USD (gross). This book provides students with a thorough theoretical understanding of electromagnetic field equations and it also treats a large number of applications. The text is a comprehensive two-semester textbook. The work treats most topics in two steps – a short, introductory chapter followed by a second chapter with in-depth extensive treatment; between 10 to 30 applications per topic; examples and exercises throughout the book; experiments, problems and summaries.

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Book's title: Engineering electromagnetics Nathan Ida. Library of Congress Control Number: 99017362. International Standard Book Number (ISBN): 0387986456 (hardcover : alk. paper). On this site it is impossible to download the book, read the book online or get the contents of a book. The administration of the site is not responsible for the content of the site. The data of catalog based on open source database. All rights are reserved by their owners. Download book Engineering electromagnetics, Nathan Ida. online for free.

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The first part thus presents the electromagnetic field and Maxwell's equations with a view toward connecting the disparate applications to the underlying relations, while the second part presents computational methods of solving the equations - which for most practical calses cannot be solved analytically.

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This text not only provides students with a good theoretical understanding of electromagnetic field equations but it also treats a large number of applications. No topic is presented unless it is directly applicable to engineering design or unless it is needed for the understanding of another topic. Included in this new edition are more than 400 examples and exercises, exercising every topic in the book. Also to be found are 600 end-of-chapter problems, many of them applications or simplified applications. A new chapter introducing numerical methods into the electromagnetic curriculum discusses the finite element, finite difference and moment methods.

Reviews: 7
JoJoshura
Too often scientists and engineers think that the stick-up-their-rear formalistic mentality promoted and loved in the scientific community is also loved by students. This is not the case, and Ida understands this perfectly. Without sacrificing any rigor he is able to convey the material in this text with the beauty and reverence it deserves, and even points out the difficulty some of our greatest historical geniuses had with subjects we are expected to master in weeks. I have found a few errors in the examples thus far, but for the level of mathematics most people know going into this course they shouldn't be too hard to find.
Jeronashe
Some complain Ida has a tendency to be wordy but I think he does a very good job elaborating his ideas and re-emphasizing important concepts. In part, one has to be wordy to illustrate the nuisances of ideas that may seem deceptively simple.

One of the problems with most textbooks is the need to be terse and extremely concise. This is problematic because to get a comprehensive understanding of certain formulas, for instance, one needs to see the equations in expanded "wordy" form. A perfect example of this is the limit equations for divergence and curl. Most textbooks do not include this definition (perhaps because they themselves never learned it) but it is included in this book. This is quite possibly the only way for one to visualize what the divergence and curl concepts represent, rather than getting a superficial sense of "flow" or "rotation". Ida also does a good job of explaining why such mechanics exist in mathematics, rather than simply explaining what they do. If you can't understand the divergence or curl, how can one understand Maxwell's equations?

Overall, this is a superb book and the reviews speak for themselves.
Dalallador
I recently bought Engineering Electromagnetics (second edition) by Nathan Ida. It has since become my favourite book on the subject, along with Field and Wave Electromagnetics (second edition) by Cheng. I own six electromagnetics books, of which the two best known are the one by Cheng (aforementioned) and Electromagnetics with Applications by Kraus (sixth edition). I now compare these three books, referring to them as Ida, Cheng, and Kraus.

Firstly, all three books are good. All three are of similar level, suitable for EE undergraduates. (Ida and Cheng use matrices wherever appropriate, but Kraus never uses matrices, not even to simplify the discussion.) All three books display personal enthusiasm for the subject-matter. For example, Ida provides many interesting historical footnotes.

Secondly, Ida has 1235 pages whereas Cheng has 703 and Kraus has 617. It is tempting to attribute this to the fact that Ida tends to explain things with more words (something which I appreciate), but this is not the case because this would not account for more than 10 percent of the total book size. The true reason for the book's length is the in-depth discussion of theory, and the many many applications of the theory. In effect, it combines the best of Cheng (which is good for principles) and the best of Kraus (which is okay for applications). Ida actually far exceeds Kraus in many important applications, e.g. transformers, Smith chart, and numerical methods for boundary-value problems.

Thirdly, all three books are generous in providing answers to end-of-chapter problems. Ida goes one step further by giving answers to ALL problems except a handful of discussion-type questions. Moreover, the problems are categorized under headings so that you can zero in on an area of interest. For example, the chapter on antennas has 36 problems, categorized under the following boldface headings: Hertzian dipole (4 problems), magnetic dipole (2), linear antennas of arbitrary length (2), half-wave dipole antenna (2), various length dipole antennas (3), monopole antenna (5), two-element image antennas (6), n-element linear array (6), reciprocity and receiving antennas (4), and radar (2).

It is noteworthy that most the Amazon.com reviewers say that this is the best book ever on electromagnetics. I am inclined to agree with them.
Mbon
This book is excellent with well thought out examples which are explained in good detail. Like other reviewers have mentioned this book covers a lot of material, yet it seems to do it in logical way that flows from one chapter to the next. A big plus is that the end of chapter questions are separated by the what the chapter subsections covered making it great for self learners who want to focus on one type of problem set there having trouble with (and there's answers in the back).