Electromagnetic Foundations of Electrical Engineering

Morrison, Ralph

A practical new approach that brings together circuit theory and field theory for the practicing engineer To put it frankly, the traditional education of most engineers and scientists leaves them often unprepared to handle many of the practical problems they encounter. The Fields of Electronics: Understanding Electronics Using Basic Physics offers a highly original correction to this state of affairs. Most engineers learn circuit theory and field theory separately. Electromagnetic field theory is an important part of basic physics, but because it is a very mathematical subject, the connection to everyday problems is not emphasized. Circuit theory, on the other hand, is by its nature very practical. However, circuit theory cannot describe the nature of a facility, the interconnection of many pieces of hardware, or the power grid that interfaces each piece of hardware. The Fields of Electronics offers a unique approach that brings the physics and the circuit theory together into a seamless whole for today's practicing engineers. With a clear focus on the real-world problems confronting the practitioner in the field, the book thoroughly details the principles that apply to: * Capacitors, inductors, resistors, and transformers * Utility power and circuit concepts * Grounding and shielding * Radiation * Analog and digital signals * Facilities and sites Written with very little mathematics, and requiring only some background in... Leer más…

Richard Fitzpatrick

Designed for upper division electromagnetism courses or as a reference for electrical engineers and scientists, this book introduces Maxwell s equations and electromagnetic waves as soon as possible (i.e., in the first third of the book), and then discusses electrostatics, magnetostatics, induction, etc., in the light of those equations. The book also provides a thorough treatment of vector field theory which emphasizes the rotational invariance of the dot and cross products, together with div, grad, and curl, and thus gives a clear physical motivation for the use of those constructs to describe electric and magnetic fields. Unlike many competing books, Maxwell s Equations & the Principles of Electromagnetism covers topics such as advanced potentials, retarded fields, forces on dielectric liquids, antenna theory, and Faraday rotation. \*BRIEF TABLE OF CONTENTS: 1. Introduction. 2. Vectors and Vector Fields. 3. Time-Independent Maxwell s Equations. 4. Time-Dependent Maxwell s Equations. 5. Electrostatic Calculations. 6. Dielectric and Magnetic Media. 7. Magnetic Induction.8.Electromagnetic Energy and Momentum. 9. Electromagnetic Radiation. 10. Relativity and Electromagnetism. Appendixes. Index. Leer más…

Minoru Fujimoto

The Maxwell theory of electromagnetism was well established in the latter ni- teenth century, when H. R. Hertz demonstrated the electromagnetic wave. The theory laid the foundation for physical optics, from which the quantum concept emerged for microscopic physics. Einstein realized that the speed of electrom- netic propagation is a universal constant, and thereby recognized the Maxwell equations to compose a fundamental law in all inertial systems of reference. On the other hand, the pressing demand for ef?cient radar systems during WWII accelerated studies on guided waves, resulting in today’s advanced telecommu- cation technology, in addition to a new radio- and microwave spectroscopy. The studies were further extended to optical frequencies, and laser electronics and - phisticated semi-conducting devices are now familiar in daily life. Owing to these advances, our knowledge of electromagnetic radiation has been signi?cantly - graded beyond plane waves in free space. Nevertheless, in the learning process the basic theory remains founded upon early empirical rules, and the traditional teaching should therefore be modernized according to priorities in the modern era. In spite of the fact that there are many books available on this well-established theme, I was motivated to write this book, reviewing the laws in terms of cont- porary knowledge in order to deal with modern applications. Here I followed two basic guidelines. First, I considered electronic charge and spin as... Leer más…

Jeremy Everard

nciples used is very important. The aim of this book is to explain the fundamentals of the basic building blocks used in RF circuit design both at the component and intermediate block level. At block level this includes low noise small signal amplifiers, both narrowband and broadband, low phase noise oscillators, mixers and power amplifiers. The components include bipolar transistors, FETs, resistors, capacitors, inductors, varactor diodes and diode detectors. Charts of performance parameters for chip components are included. The approach is both theoretical and practical explaining the principles of operation and then applying theory (largely algebra) to show how significant insight, both linear and non-linear, can be obtained by using simplifications and approximations. Where necessary more accurate models can be derived by incorporating second order effects. The mathematics is generally included in full as it is important, when extensive CAD is used, that the initial analysis should use sufficient theory to show the required insight. This then enables more robust and longer lasting designs. The book is an extension of the course material provided to delegates on advanced one-week intensive courses offered to industry by the University of York. These are offered either as a single course or as part of the Integrated Graduate Development Scheme (IGDS) masters degree programmes initially sponsored by the UK Engineering and Physical Sciences Research Council. This material... Leer más…

Clive Maxfield, John Bird, Tim Williams, Walt Kester, Alan Bensky

The Newnes Know It All Series takes the best of what our authors have written to create hard-working desk references that will be an engineer's first port of call for key information, design techniques and rules of thumb. Guaranteed not to gather dust on a shelf! The Electrical Engineering know it all covers the essential areas of electrical engineering, it is more practical than most of the large EE "handbooks," offering tips, tools of the trade, design and applications information along with summarized theory, equations and formulas that are normally found in such books. Contents: Chapter 1 An Introduction to Electric Circuits Chapter 2 Resistance and Resistivity Chapter 3 Series and parallel networks Chapter 4 Capacitors and Inductors Chapter 5 D.c. circuit theory Chapter 6 Alternating voltages and currents Chapter 7 Complex Numbers Chapter 8 Transients and Laplace transforms Chapter 9 Frequency Domain Circuit Analysis Chapter 10 Digital Electronincs Chapter 11 Analog Electronics Chapter 12 Circuit simulation Chapter 13 Interfacing Chapter 14 Microcontrollers and Microprocessors Chapter 15 Power Electronics Chapter 16 Signals and Signal Processing Chapter 17 Filter Design Chapter 18 Control and Instrumentation Systems Chapter 19 Communications Systems Chapter 20 Principles of Electromagnetics Chapter 21 MAGNETIC FIELDS Chapter 22 Electromagnetic Transients and EMI Chapter 23 Traveling Wave Effects Chapter 24 Transformers Chapter 25 Electromagnetic Machines Chapter 26... Leer más…

Daniel A. Fleisch

Gauss's law for electric fields, Gauss's law for magnetic fields, Faraday's law, and the Ampere Maxwell law are four of the most influential equations in science. In this guide for students, each equation is the subject of an entire chapter, with detailed, plain language explanations of the physical meaning of each symbol in the equation, for both the integral and differential forms. The final chapter shows how Maxwell's equations may be combined to produce the wave equation, the basis for the electromagnetic theory of light. This book is a wonderful resource for undergraduate and graduate courses in electromagnetism and electromagnetics. A website hosted by the author at (http://www.cambridge.org/9780521701471) www.cambridge.org/9780521701471 contains interactive solutions to every problem in the text as well as audio podcasts to walk students through each chapter. Leer más…

William H. Hayt (Jr); William Hart Hayt; John A. Buck

"Engineering Electromagnetics" is a "classic" in Electrical Engineering textbook publishing. First published in 1958, it quickly became a standard and has been a best-selling book for over 4 decades. A new co-author from Georgia Tech has come aboard for the sixth edition to help update the book. Designed for introductory courses in electromagnetics or electromagnetic field theory at the junior-level, and offered in departments of electrical engineering, the text is a widely respected, updated version that stresses fundamentals and problem solving and discusses the material in an understandable, readable way. As in the previous editions, the book retains the scope and emphasis that have made the book very successful while updating all the problems. Leer más…

Bhag Singh Guru; Hüseyin R. Hiziroglu

Including examples and problems throughout and background revision material where appropriate, this book introduces undergraduate students to the basic concepts of electrostatic and magnetostatic fields. It also covers Maxwell's equations, propagation, transmission and radiation, and includes chapters on the Finite Element and Finite Difference method. A CD containing many MathCad examples is included with the book, and a comprehensive solutions set is also available. First Edition published by Brooks/Cole Publishing Co. (1997): 0-534-95504-5 Leer más…

I. E. Irodov

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U.a.bakshi, V.u.bakshi

Concept of e.m.f., p,d.; and Current Resistance; Effect of Temperature on Resistance. Resistance temperature Coefficient; Insulation Resistance; S.I. Units of Work; Power and Energy Conversion of Energy from One Form to Another in Electrical; Mechanical and Thermal Systems. Batteries and Cells; Their Types; Current Capacity and Cell Ratings; Charging and Discharging of Batteries; Series and Parallel Battery Connections; Maintenance Procedure. Classification of Electric Networks; Ohms Law; Kirchhoff’s Laws and Their Applications for Networks Solutions Simplification of Networks Using Series and Parallel Combinations and Star-Delta Transformation; Superposition Theorem; Thevenins Theorem; Nortons Theorem and Maximum Power Transfer Theorem Leer más…

Syed A. Nasar, S. A. Nasar

SciTech Publishing is reissuing this extremely valuable learning resource, originally published in 1992 in the Schaum&'s Problem-Solving Series for students of electromagnetics and those who wish to refresh and solidify their understanding of its challenging applications. Problem-solving drill helps develop confidence, but few textbooks offer the answers, never mind the complete solutions, to their chapter exercises. Here noted author Professor Syed Nasar has divided the book's problems into topic areas similar to a textbook and presented a wide array of problems, followed immediately by their solutions. Leer más…

Constantine A. Balanis

Balanis’ second edition of Advanced Engineering Electromagnetics – a global best-seller for over 20 years – covers the advanced knowledge engineers involved in electromagnetic need to know, particularly as the topic relates to the fast-moving, continually evolving, and rapidly expanding field of wireless communications. The immense interest in wireless communications and the expected increase in wireless communications systems projects (antenna, microwave and wireless communication) points to an increase in the number of engineers needed to specialize in this field.In addition, the Instructor Book Companion Site contains a rich collection of multimedia resources for use with this text. Resources include:Ready-made lecture notes in Power Point format for all the chapters.Forty-nine MATLAB® programs to compute, plot and animate some of the wave phenomenaNearly 600 end-of-chapter problems, that's an average of 40 problems per chapter (200 new problems; 50% more than in the first edition)A thoroughly updated Solutions Manual2500 slides for Instructors are included. Leer más…

Massimo Ceraolo, Davide Poli

This book serves as a tool for any engineer who wants to learn about circuits, electrical machines and drives, power electronics, and power systems basics From time to time, engineers find they need to brush up on certain fundamentals within electrical engineering. This clear and concise book is the ideal learning tool for them to quickly learn the basics or develop an understanding of newer topics. Fundamentals of Electric Power Engineering: From Electromagnetics to Power Systems helps nonelectrical engineers amass power system information quickly by imparting tools and trade tricks for remembering basic concepts and grasping new developments. Created to provide more in-depth knowledge of fundamentals—rather than a broad range of applications only—this comprehensive and up-to-date book: Covers topics such as circuits, electrical machines and drives, power electronics, and power system basics as well as new generation technologies Allows nonelectrical engineers to build their electrical knowledge quickly Includes exercises with worked solutions to assist readers in grasping concepts found in the book Contains “in-depth” side bars throughout which pique the reader's curiosity Fundamentals of Electric Power Engineering is an ideal refresher course for those involved in this interdisciplinary branch. For supplementary files for this book, please visit http://booksupport.wiley.com Leer más…

Khan, Ahmad Shahid;mukerji, Saurabh Kumar;singh, Yatendra Pal

Electromagnetics for Electrical Machines offers a comprehensive yet accessible treatment of the linear theory of electromagnetics and its application to the design of electrical machines. Leveraging valuable classroom insight gained by the authors during their impressive and ongoing teaching careers, this text emphasizes concepts rather than numerical methods, providing presentation/project problems at the end of each chapter to enhance subject knowledge. Highlighting the essence of electromagnetic field (EMF) theory and its correlation with electrical machines, this book: Reviews Maxwell's equations and scalar and vector potentials Describes the special cases leading to the Laplace, Poisson's, eddy current, and wave equations Explores the utility of the uniqueness, generalized Poynting, Helmholtz, and approximation theorems Discusses the Schwarz–Christoffel transformation, as well as the determination of airgap permeance Addresses the skin effects in circular conductors and eddy currents in solid and laminated iron cores Contains examples relating to the slot leakage inductance of rotating electrical machines, transformer leakage inductance, and theory of hysteresis machines Presents analyses of EMFs in laminated-rotor induction machines, three-dimensional field analyses for three-phase solid rotor induction machines, and more Electromagnetics for Electrical Machines makes an ideal text for postgraduate-level students of electrical engineering, as well as of physics and... Leer más…

Richard P. Feynman; Robert B. Leighton; Matthew Sands

Edited for reading on tablets. Fully searchable text (edited in LaTeX). All figures and equations can be enlarged without losing any quality. Page numbering. Pdf table of contents. Clickable references to figures and equations. Leer más…

David K. Cheng

respected For Its Accuracy, Its Smooth And Logical Flow Of Ideas, And Its Clear Presentation, field And Wave Electromagnetics Has Become An Established Textbook In The Field Of Electromagnetics. This Book Builds The Electromagnetic Model Using An Axiomatic Approach In Steps: First For Static Electric Fields, Then For Static Magnetic Fields, And Finally For Time-varying Fields Leading To Maxwell's Equations. This Approach Results In An Organized And Systematic Development Of The Subject Matter. Applications Of Derived Relations To Fundamental Phenomena And Electromagnetic Technologies Are Explained. back Cover field And Wave Electromagnetics, Second Edition Features Many Examples Of Practical Applications To Give Students An Excellent Physical — As Well As Mathematical — Understanding Of Important Concepts. These Include Applications Drawn From Important New Areas Of Technology Such As Optical Fibers, Radome Design, Satellite Communication, And Microstrip Lines. There Is Also Added Coverage Of Several New Topics, Including Hall Effect, Radar Equation And Scattering Cross Section, Transients In Transmission Lines, Waveguides And Circular Cavity Resonators, Wave Propagation In The Ionosphere, And Helical Antennas. New Exercises, New Problems, And Many Worked-out Examples Make This Complex Material More Accessible To Students. Leer más…