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The Finite-Difference Time-Domain Method
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Worked examples illustrate practical applications of theory and students can test their new knowledge with 90 end-of-chapter problems. Electricity, Magnetism, and Light. Wayne M. A very comprehensive introduction to electricity, magnetism and optics ranging from the interesting and useful history of the science, to connections with current real-world phenomena in science, engineering and biology, to common sense advice and insight on the intuitive understanding of electrical and magnetic phenomena. Slightly more advanced than standard freshman texts for calculus-based engineering physics courses with the mathematics worked out clearly and concisely.
Helpful diagrams accompany the discussion. The emphasis is on intuitive physics, graphical visualization, and mathematical implementation. Electricity, Magnetism, and Light is an engaging introductory treatment of electromagnetism and optics for second semester physics and engineering majors.
Focuses on conceptual understanding, with an emphasis on relevance and historical development. Mathematics is specific and avoids unnecessary technical development. Emphasis on physical concepts, analyzing the electromagnetic aspects of many everyday phenomena, and guiding readers carefully through mathematical derivations. Provides a wealth of interesting information, from the history of the science of electricity and magnetism, to connections with real world phenomena in science, engineering, and biology, to common sense advice and insight on the intuitive understanding of electrical and magnetic phenomena.
Advanced Mechanics and General Relativity. Joel Franklin. Aimed at advanced undergraduates with background knowledge of classical mechanics and electricity and magnetism, this textbook presents both the particle dynamics relevant to general relativity, and the field dynamics necessary to understand the theory. Focusing on action extremization, the book develops the structure and predictions of general relativity by analogy with familiar physical systems. Topics ranging from classical field theory to minimal surfaces and relativistic strings are covered in a homogeneous manner.
Nearly exercises and numerous examples throughout the textbook enable students to test their understanding of the material covered. A tensor manipulation package to help students overcome the computational challenge associated with general relativity is available on a site hosted by the author.
Finite difference time domain (fdtd) method for computational electro…
A link to this and to a solutions manual can be found at www. Engineering Electromagnetics and Waves: Edition 2. This is the eBook of the printed book and may not include any media, website access codes, or print supplements that may come packaged with the bound book.
Teaching and Learning Experience This program will provide a better teaching and learning experience—for you and your students. Electronic Properties of Materials: Edition 4. Rolf E. This text on the electrical, optical, magnetic, and thermal properties of materials stresses concepts rather than mathematical formalism. Suitable for advanced undergraduates, it is intended for materials and electrical engineers who want to gain a fundamental understanding of alloys, semiconductor devices, lasers, magnetic materials, and so forth.
The book is organized to be used in a one-semester course; to that end each section of applications, after the introduction to the fundamentals of electron theory, can be read independently of the others. Many examples from engineering practice serve to provide an understanding of common devices and methods. Among the modern applications covered are: high-temperature superconductors, optoelectronic materials, semiconductor device fabrication, xerography, magneto-optic memories, and amorphous ferromagnetics. Citations Publications citing this paper.
P'erez-Invern'on , Alejandro Luque , F. Analysis of the optical properties of texturing patterns for design of Si solar cells Francisco J. Ortlepp , Ken J. Surface plasmons for enhanced metal-semiconductor-metal photodetectors Ayman Karar.