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Electricity --- Magnetism
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Electricity --- Magnetism --- Électricité --- Magnétisme
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EML is designed as a freshman/sophomore level Introduction to Electromagnetism and Optics to be taught to third semester, or second year physics and engineering majors. There is a wealth of interesting and useful 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. Enrichments included take-home experiments to bring home the key concepts. The book is heavy on relevance. Practical electrical examples, sections on motors and generators. The level is slightly more advanced than the standard freshman texts for calculus based engineering physics courses. The approach is intuitive and pedagogical. The focus is on using the mathematics (when needed) to better understand the physics, not just for the sake of doing mathematics. Almost all of the mathematics is worked out clearly and concisely. Clear and helpful diagrams accompany the mathematics at almost every stage. The emphasis is always on intuitive physics, graphical visualization, and mathematical implementation. Each chapter is accompanied by numerous short problems. The treatment of magnetic materials, magnetic field-current interactions, and magnetic field production by currents should, in my opinion, be reversed. The material covered is appropriate for a sophomore level course for physics and engineering students, probably a one semester course, although there is enough material for a two quarter course. The style of writing is informal and invites the reader to stop an think about what has been said. The illustrations anticipate students' questions and add to the clarity of the text's explanations. This book will stand out among many available textbooks on electromagnetism. Its format is modern and user-friendly. It emphasizes on physical concepts, analyzes the electromagnetic aspects of many everyday phen
Electricity. --- Light. --- Magnetism.
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Electrets --- Physics --- Physical Sciences & Mathematics --- Electricity & Magnetism
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EML is designed as a freshman/sophomore level Introduction to Electromagnetism and Optics to be taught to third semester, or second year physics and engineering majors. There is a wealth of interesting and useful 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. Enrichments included take-home experiments to bring home the key concepts. The book is heavy on relevance. Practical electrical examples, sections on motors and generators. The level is slightly more advanced than the standard freshman texts for calculus based engineering physics courses. The approach is intuitive and pedagogical. The focus is on using the mathematics (when needed) to better understand the physics, not just for the sake of doing mathematics. Almost all of the mathematics is worked out clearly and concisely. Clear and helpful diagrams accompany the mathematics at almost every stage. The emphasis is always on intuitive physics, graphical visualization, and mathematical implementation. Each chapter is accompanied by numerous short problems. The treatment of magnetic materials, magnetic field-current interactions, and magnetic field production by currents should, in my opinion, be reversed. The material covered is appropriate for a sophomore level course for physics and engineering students, probably a one semester course, although there is enough material for a two quarter course. The style of writing is informal and invites the reader to stop an think about what has been said. The illustrations anticipate students' questions and add to the clarity of the text's explanations. This book will stand out among many available textbooks on electromagnetism. Its format is modern and user-friendly. It emphasizes on physical concepts, analyzes the electromagnetic aspects of many everyday phen
Electricity. --- Magnetism. --- Light. --- Electromagnetic waves --- Light sources --- Spectrum analysis --- Mathematical physics --- Physics --- Electricity --- Magnetics --- Galvanism --- Magnetism
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Electromagnetic measurements --- Physics --- Physical Sciences & Mathematics --- Electricity & Magnetism
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Electromagnetic waves --- Sound-waves --- Physics --- Electricity & Magnetism --- Physical Sciences & Mathematics
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Liquid dielectrics --- Electric conductivity --- Breakdown (Electricity) --- Physics --- Physical Sciences & Mathematics --- Electricity & Magnetism
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Sciences and engineering --- Physical sciences --- Pure sciences --- Physics --- Electricity and magnetism. --- Optics.
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This book covers the main aspects of dynamic phenomena in confined magnetic structures so that researchers can find a comprehensive compilation of the current status in the field. Introductory chapters help newcomers to understand the basic concepts, and the more advanced chapters give the current state of the art for most spin dynamic issues in the milliseconds to femtoseconds range. Emphasis is placed on both the discussion of the experimental techniques and on the theoretical work. The comprehensive presentation of these developments makes this volume very timely and valuable for every researcher working in the field of magnetism. It describes the new experimental techniques which have advanced this field very rapidly. Among the techniques covered, particular attention is given to those involving high temporal and spatial resolutions, down to the femtosecond and submicrometer regime, as well as to techniques involving magnetic field pulses with very short rise times and durations, and new detection schemes.
Magnetic structure. --- Nuclear spin. --- Magnetic structure --- Nuclear spin --- Spin, Nuclear --- Angular momentum (Nuclear physics) --- Nuclear physics --- Structure, Magnetic --- Crystallography --- Magnetism. --- Magnetism, Magnetic Materials. --- Mathematical physics --- Physics --- Electricity --- Magnetics --- Magnetic materials. --- Materials
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