Pearson eText Fundamentals of Applied Electromagnetics -- Instant Access, 8th Edition
©2020 | Pearson
Format | Electronic Book |
ISBN-13: | 9780135200445 |
Availability |
Live
|
Fawwaz T. Ulaby, University of Michigan
Umberto Ravaioli
©2020 | Pearson
Format | Electronic Book |
ISBN-13: | 9780135200445 |
Availability |
Live
|
For courses in electromagnetics.
Bridging the gap between circuits and electromagnetics.
Widely acclaimed both in the US and abroad, this authoritative text bridges the gap between circuits and electromagnetics material. Fundamentals of Applied Electromagnetics begins coverage with transmission lines, leading students from familiar concepts into more advanced topics and applications. The 8th Edition builds on the core content and style of previous editions, retaining the student-friendly approach and hands-on simulation modules that help students develop a deeper understanding of electromagnetic concepts and applications. Enhanced graphs and illustrations and an expanded scope of topics in the Technology Briefs, establish additional bridges between electromagnetic fundamentals and their countless engineering and scientific applications.
Extend learning beyond the classroom
Pearson eText is an easy-to-use digital textbook that students can purchase on their own or you can assign for your course. It lets students read, highlight, and take notes all in one place. The mobile app lets students learn on the go, offline or online. Creating a course allows you to schedule readings, view reading analytics, and share your own notes with students, motivating them to keep reading, and keep learning. Learn more about Pearson eText.
Extend learning beyond the classroom
Pearson eText is an easy-to-use digital textbook that students can purchase on their own or you can assign for your course. Creating a course allows you to personalize your Pearson eText so students see the connection between their reading and what they learn in class, motivating them to keep reading, and keep learning. Learn more about Pearson eText.
Engage students with real-world applications
Build and reinforce conceptual understanding
Benefits of creating a Pearson eText course
Check out the preface for a complete list of features and whats new in this edition.
Extend learning beyond the classroom
Pearson eText is an easy-to-use digital textbook that students can purchase on their own or you can assign for your course. Creating a course allows you to personalize your Pearson eText so students see the connection between their reading and what they learn in class, motivating them to keep reading, and keep learning. Learn more about Pearson eText.
Engage students with real-world applications
Build and reinforce conceptual understanding
Benefits of creating a Pearson eText course
Check out the preface for a complete list of features and whats new in this edition.
1. Introduction: Waves and Phasors
2. Transmission Lines
3. Vector Analysis
4. Electrostatics
5. Magnetostatics
6. Maxwells Equations for Time-Varying Fields
7. Plane-Wave Propagation
8. Wave Reflection and Transmission
9. Radiation and Antennas
10. Satellite Communication Systems and Radar Sensors
Appendix A: Symbols, Quantities, and Units
Appendix B: Material Constants of Some Common Materials
Appendix C: Mathematical Formulas
Appendix D: Answers to Selected Problems
Pearson offers affordable and accessible purchase options to meet the needs of your students. Connect with us to learn more.
K12 Educators: Contact your Savvas Learning Company Account General Manager for purchase options. Instant Access ISBNs are for individuals purchasing with credit cards or PayPal.
Savvas Learning Company is a trademark of Savvas Learning Company LLC.
Fawwaz Ulaby. Since joining the University of Michigan faculty in 1984, Professor Ulaby has directed numerous interdisciplinary projects aimed at the development of high-resolution satellite radar sensors for mapping Earth's terrestrial environment. He also served as the founding director of the NASA-funded Center for Space Terahertz Technology, whose research was aimed at the development of microelectronic devices and circuits that operate at wavelengths between the infrared and the microwave regions of the electromagnetic spectrum. He then served a seven-year term as the University of Michigan's vice president for research from 1999-2005. Over his academic career, he has published 10 books and supervised more than 100 graduate students.
Professor Ulaby is a member of the US National Academy of Engineering, Fellow of the American Association for the Advancement of Science (AAAS) and the Institute of Electrical and Electronic Engineers (IEEE), and serves on several international scientific boards and commissions. In recognition for his outstanding teaching and distinguished scholarship, he has been the recipient of numerous honors and awards from universities, government agencies, and scientific organizations. Among them are the NASA Achievement Award (1990), the IEEE Millennium Medal (2000), the 2002 William Pecora Award, a joint recognition by NASA and the Department of the Interior, and the Distinguished FEA Alumni Award from the American University of Beirut (2006). In 2006, he was selected by the students in the Department of Electrical Engineering and Computer Science as "Professor of the Year," and shortly thereafter, he was awarded the Thomas Edison Medal, the oldest medal in the field of electrical and computer engineering in the United States.
Umberto Ravaioli attended the University of Bologna, Italy, where he obtained degrees in Electronics Engineering and Physics. He conducted his dissertation work on fiber optics and microwaves at the laboratories of the Marconi Foundation in Villa Griffone, the summer estate where Guglielmo Marconi performed his first radio experiments. After developing interests in high speed semiconductor devices and large scale computation, he pursued a PhD in Electrical Engineering at Arizona State University, where he developed Monte Carlo particle simulations for the high electron mobility transistor.
He joined the Department of Electrical and Computer Engineering of the University of Illinois at Urbana-Champaign in 1986. He was a co-founder of the National Center for Computational Electronics, which promoted for over a decade the development of large scale device simulation by leveraging resources at national supercomputing centers. His research group has developed Monte Carlo and quantum simulators for a wide range of semiconductor device applications, expanding recent activities to charge transport in biological systems, coupled electro-thermal simulation, and nanoelectronics. He is now the leader of the Computational Multiscale Nanosystems group at the Beckman Institute of the University of Illinois and is also serving as Senior Assistant Dean for Undergraduate Programs in the College of Engineering.
Professor Ravaioli is a Fellow of the Institute of Electrical and Electronic Engineers (IEEE) and a Fellow of the Institute of Physics (IOP). He received the First Place Outstanding Paper Award at the 2007 IEEE International Conference on Electron Information Technology for his recent work on electro-thermal simulation.
We're sorry! We don't recognize your username or password. Please try again.
The work is protected by local and international copyright laws and is provided solely for the use of instructors in teaching their courses and assessing student learning.
You have successfully signed out and will be required to sign back in should you need to download more resources.