Applied Electromagnetics in Materials. Proceedings of the First International Symposium, Tokyo, 3–5 October 1988

Summary of the Book

The book is divided into multiple sections, each delving into a specialized area of applied electromagnetics. It begins with theoretical principles, exploring the fundamental laws governing electromagnetism in various material mediums. From the basics, the focus gradually shifts to practical applications, including electromagnetics in industrial processes, magnetic materials, and the high-frequency behavior of complex materials.

Among the topics covered are electromagnetic wave propagation, modeling, and computational techniques for understanding interactions with materials. There is a strong emphasis on interdisciplinary collaboration, making this work applicable in physics, electrical engineering, and industrial processing. Each chapter is a contribution from a recognized expert, providing deep insights into both theory and experimental outcomes.

The final chapters emphasize emerging technologies, discussing challenges such as minimizing energy loss and maximizing material efficiency. Taken together, the contributions portray a community striving to bridge the gap between theory and practical needs, offering insights that are still relevant in today’s fast-changing technological environment.

Key Takeaways

• A deeper understanding of the interaction between electromagnetic waves and diverse materials, including dielectric and magnetic materials.
• Novel computational methods for solving electromagnetic field problems with applications in engineering and material science.
• Emerging applications of electromagnetics in industrial fields, including manufacturing and power systems.
• The importance of interdisciplinary approaches when solving complex electromagnetics problems in real-world scenarios.
• Insights into challenges, such as minimizing energy losses and enhancing material performance through novel designs.

Famous Quotes from the Book

"Electromagnetics is not just a field of science—it is a bridge connecting the fundamental nature of materials to the practical needs of society."

"Modern technological advancement relies as much on the optimization of materials as it does on the mastery of electromagnetic principles."

"The future lies in our ability to make electromagnetic science adaptable, accessible, and transformative for emerging industries."

Why This Book Matters

Although this book was published over three decades ago, its relevance remains strong in the study and application of electromagnetics. It presents key theories and applications that have since become integral to scientific and engineering disciplines. By capturing the discussions and findings of the First International Symposium, the text acts as a historical marker of progress in this field, while continuing to offer insights that inspire current and future generations of researchers.

This book is especially important for anyone working with advanced materials and their electromagnetic properties. It also emphasizes the significance of collaborative, interdisciplinary approaches, bridging physics, materials science, and electrical engineering. The technical depth and breadth of topics make it a vital resource for academic and industrial use.

In today’s world, where the push for technological progress is swift and unrelenting, this compendium remains a treasure trove of ideas and frameworks that guide the optimization and innovation of materials through applied electromagnetics.