Basic Introduction to Bioelectromagnetics, Third Edition: 3rd Edition (Hardback) book cover

Basic Introduction to Bioelectromagnetics, Third Edition

3rd Edition

By Cynthia Furse, Douglas A. Christensen, Carl H. Durney, James Nagel

CRC Press

320 pages | 67 Color Illus. | 158 B/W Illus.

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pub: 2018-10-08
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Description

Basic Introduction to Bioelectromagnetics, Third Edition, is a primary source for medical technologists and life scientists seeking to understand how electromagnetic fields interact with the body, and how they are used in medical applications. Instead of the complex math commonly used when analyzing electromagnetics, this book uses graphical methods and simple equations. The third edition is updated with color graphics that show the fields in bright, clear colors. Each concept is presented with an associated discussion and application, including MRI, NMR, hyperthermia, neural stimulation, ultrasound, and cardiac pacing/defibrillation.

Offering a simplified explanation of a very complex subject, this third edition provides an accessible introduction for life scientists and medical technologist on how EM fields work, what controls them, and the factors important to experimental setups and medical applications.

This qualitative and illustrative book:

  • Covers the entire frequency spectrum from direct current (DC) up through optical frequencies.
  • Includes more than 200 illustrations, 65 in color, and 40 medical applications.
  • Incorporates examples from real-world applications to explain concepts.
  • Concentrates on the qualitative explanation of the key concepts, fundamental principles, and characteristic behaviors of EM fields, without complicated mathematics.
  • Offers practical rules of thumb to understand real situations.
  • Requires only a background in algebra, in contrast to typical EM books that require vector calculus and differential equations.

Reviews

'This book presents a complicated topic in a simple way using examples and illustrations to provide general intuition on the important concepts of Bioelectromagnetics. The reader can grasp the fundamental concepts of biolelectromagnetics without the requirement for a strong background in vector calculus and partial differential equations. This book is perfect for people working in the life science world that want to understand the fundamental concepts behind the electromagnetic tools they use in their work.'

- Dr. Rock Hadley, Research Assistant Professor, University of Utah

"The book is unique in terms of its content; it is simple with minimal mathematics. It targets "anybody" who is interested in bioelectromagnetics and who wants to know "something" about electromagnetics."

- Professor Levent Sevgi, Istanbul OKAN University

"The main strength of this text, as its title suggests, is that it does not assume expertise in electromagnetics. Several other texts on bio-electromagnetics assume from the reader in-depth knowledge of electromagnetic theory and are hence difficult to use in undergraduate courses. This is the first text, to my knowledge, that is undergraduate-friendly and that makes this non-trivial topic approachable… for an instructor who wants to introduce undergraduates to bioelectromagnetics, this text makes the course preparation easier and will be a valuable resource for the students."

- Professor Milica Popovich, McGill University

"The authors clearly explain the underlying concepts and theories important to electromagnetics without relying on detailed equations. These explanations are supported by a series of scenarios that illustrate the key points effectively. The scenarios are also designed to provide insight into practical applications. This approach allows the authors to emphasize the important aspects of fields to consider, and to discuss a variety of real-world applications."

- Dr. Elise Fear, University of Calgary

Table of Contents

Electric Fields Concepts. Magnetic Fields Concepts. Sources of Electric Fields (Maxwell's Equations). Sources of Magnetic Fields (Maxwell's Equations). Electric and Magnetic Field Interactions with Materials. Other Electromagnetic Field Definitions. Waveforms Used in Electromagnetics. Sinusoidal EM Functions. Root Mean Square or Effective Values. Wave Properties in Lossless Materials. Boundary Conditions for Lossless Materials. Complex Numbers in Electromagnetics (the Phasor Transform). Wave Properties in Lossy Materials. Boundary Conditions for Lossy Materials. Energy Absorption. Electromagnetic Behavior as a Function of Size and Wavelength. Electromagnetic Dosimetry. Low-Frequency Approximations. Fields Induced in Objects by Incident E Fields in Free Space. E Field Patterns for in Vitro Applied B Fields. Waves in Lossless Media. Wave Reflection and Refraction. Transmission Lines and Waveguides. Resonant Systems. Antennas. Diffraction. Measurement of Mid-Frequency Electric and Magnetic Fields. Ray Propagation Effects. Total internal Reflection and Fiber Optic Waveguides. Propagation of Laser Beams.Scattering from Particles. Proton Interaction with Tissues. X-Rays. Measurement of High-Frequency Electric and Magnetic Fields (Light).Fundamental Potential and Challenges. Emerging Applications.

About the Authors

Professor Cynthia Furse is a full Professor in Electrical and Computer Engineering at the Univ. of Utah. She has published over 200 publications, and has done extensive research in the field of bioelectromagnetism. Professor Carl Durney is an Emeritus Professor in Electrical Engineering at the Univ. of Utah, with extensive publications and a number of patents in bioelectromagnetism. Professor Douglas Christiansen is affiliated with the Department of Bioengineering at the Univ. of Utah and specializes in ultrasound and optical applications. Dr James Nagel is a Research Associate at the Univ. of Utah, where he studies eddy current separation of scrap metals and alloys.

Subject Categories

BISAC Subject Codes/Headings:
MED009000
MEDICAL / Biotechnology
MED090000
MEDICAL / Biostatistics
TEC024000
TECHNOLOGY & ENGINEERING / Microwaves