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Engineering Circuit Analysis
Engineering Circuit Analysis

Engineering Circuit Analysis, 9th Edition

ISBN10: 0073545511 | ISBN13: 9780073545516
By William Hayt, Jack Kemmerly, Jamie Phillips and Steven Durbin

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* The estimated amount of time this product will be on the market is based on a number of factors, including faculty input to instructional design and the prior revision cycle and updates to academic research-which typically results in a revision cycle ranging from every two to four years for this product. Pricing subject to change at any time.

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The hallmark feature of this classic text is its focus on the student - it is written so that students may teach the science of circuit analysis to themselves. Terms are clearly defined when they are introduced, basic material appears toward the beginning of each chapter and is explained carefully and in detail, and numerical examples are used to introduce and suggest general results. Simple practice problems appear throughout each chapter, while more difficult problems appear at the end of chapters, following the order of presentation of text material. This introduction and resulting repetition provide an important boost to the learning process.

Hayt's rich pedagogy supports and encourages the student throughout by offering tips and warnings, using design to highlight key material, and providing lots of opportunities for hands-on learning. The thorough exposition of topics is delivered in an informal way that underscores the authors' conviction that circuit analysis can and should be fun.

This book offers CONNECT and COSMOS (solutions). CONNECT is free with the text if ordered together.

Chapter 1 Introduction

Chapter 2 Basic Components and Electric Circuits

Chapter 3 Voltage and Current Laws

Chapter 4 Basic Nodal and Mesh Analysis

Chapter 5 Handy Circuit Analysis Techniques

Chapter 6 The Operational Amplifier

Chapter 7 Capacitors and Inductors

Chapter 8 Basic RC and RL Circuits

Chapter 9 The RLC Circuit

Chapter 10 Sinusoidal Steady-State Analysis

Chapter 11 AC Circuit Power Analysis

Chapter 12 Polyphase Circuits

Chapter 13 Magnetically Coupled Circuits

Chapter 14 Circuit Analysis in the s-Domain

Chapter 15 Frequency Response

Chapter 16 Two-Port Networks

Chapter 17 Fourier Circuit Analysis

Appendix 1 An Introduction to Network Topology

Appendix 2 Solution of Simultaneous Equations

Appendix 3 A Proof of Thevenin's Theorem

Appendix 4 An LTspice Tutorial

Appendix 5 Complex Numbers

Appendix 6 A Brief MATLAB Tutorial

Appendix 7 Additional Laplace Transform Theorems

Appendix 8 The Complex Frequency Plane

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About the Author

William Hayt

WILLIAM H. HAYT, JR., received his B.S. and M.S. at Purdue University and his Ph.D. from the University of Illinois. After spending four years in industry, Professor Hayt joined the faculty of Purdue University, where he served as Professor and Head of the School of Electrical Engineering, and as Professor Emeritus after retiring in 1986. Besides Engineering Circuit Analysis, Professor Hayt authored three other texts, including Engineering Electromagnetics, now in its eighth edition with McGraw Hill. Professor Hayt’s professional society memberships included Eta 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 the university’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 and present, who have devoted their lives to excellence in teaching and scholarship. They were chosen by their students and their peers as Purdue’s finest educators.

Jack Kemmerly

JACK E. KEMMERLY received his B.S. magna cum laude from The Catholic University of America, M.S. from University of Denver, and Ph.D. from Purdue University. Professor Kemmerly first taught at Purdue University and later worked as principal engineer at the Aeronutronic Division of Ford Motor Company. He then joined California State University, Fullerton, where he served as Professor, Chairman of the Faculty of Electrical Engineering, Chairman of the Engineering Division, and Professor Emeritus. Professor Kemmerly’s professional society memberships included Eta Kappa Nu, Tau Beta Pi, Sigma Xi, ASEE, and IEEE (Senior Member). His pursuits outside of academe included being an officer in the Little League and a scoutmaster in the Boy Scouts.

Jamie Phillips

Jaime Phillips received his B.S., M.S., and Ph.D. degrees in Electrical Engineering from the University of Michigan, Ann Arbor, Michigan. He was a postdoctoral researcher at Sandia National Laboratories in Albuquerque, New Mexico, and a research scientist at the Rockwell Science Center in Thousand Oaks, California, before returning to the University of Michigan as a faculty member in the EECS Department in 2002. Prof. Phillips has taught and developed numerous courses in circuits and semiconductor devices spanning from first-year undergraduate courses to advanced graduate courses. He has received several teaching honors including the University Undergraduate Teaching Award and an Arthur F. Thurnau Professorship recognizing faculty for outstanding contributions to undergraduate education. His research interests are on semiconductor optoelectronic devices with particular emphasis on infared detectors and photovoltaics and engineering education. His professional memberships include IEEE (Senior Member), Eta Kappa Nu, Materials Research Society, Tau Beta Pi, and ASEE.

Steven Durbin

Steven M. Durbin received the B.S., M.S. and Ph.D. degrees in Electrical Engineering from Purdue University, West Lafayette, Indiana. Subsequently, he was with the Department of Electrical Engineering at Florida State University and Florida A&M University before joining the University of Canterbury, New Zealand, in 2000. In 2010, he moved to the University at Buffalo, The State University of New York, where he held a joint tenured appointment between the Departments of Electrical Engineering and Physics. Since 2013, he has been with the Department of Electrical and Computer Engineering at Western Michigan University, where he is Professor of Electrical and Computer Engineering, and has served in a variety of administrative roles. His teaching interests include circuits, electronics, electromagnetics, solid-state electronics and nanotechnology. His research interests are primarily concerned with the development of novel electronic materials—in particular those based on oxide and nitride compounds—as well as studying disorder in both naturally occurring and synthetic systems as a route to physical understanding and engineering of properties. He is a founding principal investigator of the MacDiarmid Institute for Advanced Materials and Nanotechnology, a New Zealand National Centre of Research Excellence, and coauthor of over 100technical publications, including several patents and patents pending. He is a senior member of the IEEE, and a member of Eta Kappa Nu, Tau Beta Pi, the Materials Research Society, the AVS (formerly the American Vacuum Society), the Society of Amateur Radio Astronomers, the American Physical Society, and the Royal Society of New Zealand. In his spare time, he enjoys building acoustic and electric guitars, and solid-top ukuleles.

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