3 edition of Numerical analysis of electromagnetic fields found in the catalog.
Numerical analysis of electromagnetic fields
Includes bibliographical references and index.
|Series||Electric energy systems and engineering series.|
|LC Classifications||QC665.E4 Z46 1993|
|The Physical Object|
|Pagination||xxi, 406 p. :|
|Number of Pages||406|
|ISBN 10||3540547223, 0387547223|
|LC Control Number||92039200|
Theory and Computation of Electromagnetic Fields – The book is divided in two parts. The first part covers both fundamental theories (such as vector analysis, Maxwell’s equations, boundary condition, and transmission line theory) and advanced topics (such as wave transformation, addition theorems, and fields in layered media) in order to benefit students at . Abstract: The purpose of this study is to develop accurate and reliable estimation method of Electromagnetic field distributions in practical environments including passengers. However, comprehensive measurements in an actual environment cost too much and it is difficult to carry them out precisely. In this paper, large-scale numerical simulations are carried out to examine the electromagnetic.
Abstract. The scope of this chapter is to review various aspects of human interaction with electromagnetic fields (EMFs) from artificial sources, thus covering basic ideas of environmental electromagnetic fields, the public fear related to the use of EMF, biomedical applications of EMF, coupling mechanisms between humans and static electric, static magnetic, and time-varying fields. Numerical Analysis of Electromagnetic Fields (in Chinese), Science Press, Beijing, Google Scholar M.S. Sarma, A. Yamamura, Nonlinear Analysis of Magnetic Bearings for Space Technology, IEEE Trans, on AES, 15(1), –, Google ScholarCited by: 2.
Introduction to Electrodynamics - David Griffiths Introduction to Electrodynamics (3rd Edition): David J. Griffiths: : Books Amazing book, where the author talks to you, cracks jokes, takes you through the journey of under. Reviews the fundamental concepts behind the theory and computation of electromagnetic fields. The book is divided in two parts. The first part covers both fundamental theories (such as vector analysis, Maxwell’s equations, boundary condition, and transmission line theory) and advanced topics (such as wave transformation, addition theorems, and fields in layered media) in order Brand: Wiley.
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Numerical Analysis of Electromagnetic Fields (Electric Energy Systems and Engineering Series) Softcover reprint of the original 1st ed. Edition by Pei-Bai Zhou (Author)Format: Paperback. The book is designed to be suitable for graduate students in engineering science, for senior undergraduate students as well as for scientists and engineers who are interested in electromagnetic fields.
Objective Numerical calculation is the combination of mathematical methods and field theory. With Analysis of Electromagnetic Fields and Waves, Reinhold Pregla describes an important and powerful method for analyzing electromagnetic waves.
This book: Describes the general analysis principles for electromagnetic fields. Includes applications in microwave, millimetre wave and optical frequency by: The purpose of this book is to provide students with a solid background in numerical analysis of the field problems.
The book emphasizes the basic theories and universal principles of different numerical. Binns is the author of The Analytical and Numerical Solution of Electric and Magnetic Fields, published by Wiley.
Peter John Lawrenson, BSc, MSc, DSc, FIEE, FIEEE, FRS, FREng was an Emeritus Professor of Electrical Engineering at the University of Leeds who contributed to the development of switched reluctance drive by: These methods include the three fundamental approaches for numerical analysis of electromagnetic fields: the finite difference method (the finite difference time-domain method in particular), the finite element method, and the integral equation-based moment Cited by: Integral equations of electromagnetic fields 28 Integral form of Poisson's equation 28 Integral equation for the exterior region 29 Summary 30 References 31 Appendix The integral equation of 3-D magnetic fields 31 Chapter 2 General Outline of Numerical Methods 35 Introduction 35 Operator equations Numerical Electromagnetic Field Analysis of High-Frequency Wave Propagation on an Overhead Conductor Abstract: The wave propagation characteristics on an overhead conductor in a high-frequency band were investigated based on the Wise's earth-return admittance and modified Pollaczek's (accurate) earth-return impedance in a previous : Yoshiko Miyamoto, Yoshihiro Baba, Naoto Nagaoka, Akihiro Ametani.
Electromagnetic field analysis, one of the numerical analysis, is now an indispensable method for designing and de - veloping electromagnetic application products. Such advanced analysis techniques including finite element methods and faster, higher-capacity analytical hardware, such as personal computers, enable even the most complex electro -File Size: KB.
With Analysis of Electromagnetic Fields and Waves, Reinhold Pregla describes an important and powerful method for analyzing electromagnetic waves. This book: Describes the general analysis principles for electromagnetic fields.
Includes applications in microwave, millimetre wave and optical frequency regions. Numerical Analysis Of Electromagnetic Fields. Numerical methods for solving boundary value problems have developed rapidly. Knowledge of these methods is important both for engineers and scientists.
There are many books published that deal with various approximate methods such as the finite element method, the boundary element method and so on.
These methods include the three fundamental approaches for numerical analysis of electromagnetic fields: the finite difference method (the finite difference time-domain method in particular), the finite element method, and the integral equation-based moment method. The second part also examines fast algorithms for solving /5(7).
Numerical Methods in Electromagnetism will serve both as an introductory text for graduate students and as a reference book for professional engineers and researchers.
This book leads the uninitiated into the realm of numerical methods for solving electromagnetic field problems by examples and illustrations. Textbook contents: Front-End Matter, Chapter 1: Review of Vector Analysis, Chapter 2: The Electric Field, Chapter 3: Polarization and Conduction, Chapter 4: Electric Field Boundary Value Problems, Chapter 5: The Magnetic Field, Chapter 6: Electromagnetic Induction, Chapter 7: Electrodynamics-Fields and Waves, Chapter 8: Guided Electromagnetic Waves, and.
Abstract. The solution of many practical electromagnetic field problems can only be undertaken by applying numerical methods.
Before such a solution can be undertaken, it is important that a correct mathematical model be established for the problem : Pei-bai Zhou. Theory and Computation of Electromagnetic Fields doubles as a textbook for both an entry-level graduate course on electromagnetics and an advanced-level graduate course on computational electromagnetics.
It presents the fundamental concepts in a systematic manner so that students can advance from. Summary: This monograph presents the most commonly used numerical methods for analyzing boundary value problems in electromagnetic fields. Each method is described in detail in terms of theoretical basis, advantages and disadvantages.
The. Numerical Analysis of Electromagnetic Fields. [Pei-bai Zhou] -- This book includes almost all of the commonly used numerical methods for analysing boundary value problems involving electromagnetic fields.
Book Abstract: The definitive reference on electromagnetic shielding materials, configurations, approaches, and analyses This reference provides a comprehensive survey of options for the reduction of the electromagnetic field levels in prescribed areas. After an introduction and an overview of available materials, it discusses figures of merit.
As the availability of powerful computer resources has grown over the last three decades, the art of computation of electromagnetic (EM) problems has also grown - exponentially.
Despite this dramatic growth, however, the EM community lacked a comprehensive text on the computational techniques used to solve EM problems.
The first edition of Numerical Techniques in 5/5(2). The second part of the book covers the major computational methods for numerical analysis of electromagnetic fields for engineering applications. These methods include the three fundamental approaches for numerical analysis of electromagnetic fields: the finite difference method (the finite difference time-domain method in particular), the.This monograph presents the most commonly used numerical methods for analyzing boundary value problems in electromagnetic fields.
Each method is described in detail in terms of theoretical basis, advantages and disadvantages. The relationship between differing methods is also noted.Order Electromagnetic Fields, Waves and Numerical Methods ISBN @ € Qty: Aim of the book is to give a complete over view of the classical electromagnetic theory together with detailed insight in modern numerical methods for analysis of the problems in electromagnetics.