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/Title (File Type PDF Reitz Foundations Of Electromagnetic Theory Solution 3ed Copy - hff.io)
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BT 34.016 519.271 Td /F1 25.5 Tf [(Reitz Foundations Of )] TJ ET
BT 34.016 488.135 Td /F1 25.5 Tf [(Electromagnetic Theory )] TJ ET
BT 34.016 457.000 Td /F1 25.5 Tf [(Solution 3ed)] TJ ET
BT 34.016 408.484 Td /F1 12.8 Tf [(Thank you for downloading )] TJ ET
BT 190.637 408.484 Td /F1 12.8 Tf [(Reitz Foundations Of )] TJ ET
BT 34.016 392.916 Td /F1 12.8 Tf [(Electromagnetic Theory Solution 3ed)] TJ ET
BT 243.065 392.916 Td /F1 12.8 Tf [(. Maybe you have )] TJ ET
BT 34.016 377.348 Td /F1 12.8 Tf [(knowledge that, people have search hundreds times for their )] TJ ET
BT 34.016 361.780 Td /F1 12.8 Tf [(chosen books like this Reitz Foundations Of Electromagnetic )] TJ ET
BT 34.016 346.213 Td /F1 12.8 Tf [(Theory Solution 3ed, but end up in malicious downloads. )] TJ ET
BT 34.016 330.645 Td /F1 12.8 Tf [(Rather than reading a good book with a cup of coffee in the )] TJ ET
BT 34.016 315.077 Td /F1 12.8 Tf [(afternoon, instead they are facing with some malicious virus )] TJ ET
BT 34.016 299.509 Td /F1 12.8 Tf [(inside their desktop computer. )] TJ ET
BT 34.016 268.642 Td /F1 12.8 Tf [(Reitz Foundations Of Electromagnetic Theory Solution 3ed is )] TJ ET
BT 34.016 253.074 Td /F1 12.8 Tf [(available in our digital library an online access to it is set as )] TJ ET
BT 34.016 237.506 Td /F1 12.8 Tf [(public so you can get it instantly. )] TJ ET
BT 34.016 221.938 Td /F1 12.8 Tf [(Our books collection hosts in multiple countries, allowing you )] TJ ET
BT 34.016 206.371 Td /F1 12.8 Tf [(to get the most less latency time to download any of our )] TJ ET
BT 34.016 190.803 Td /F1 12.8 Tf [(books like this one. )] TJ ET
BT 34.016 175.235 Td /F1 12.8 Tf [(Merely said, the Reitz Foundations Of Electromagnetic )] TJ ET
BT 34.016 159.667 Td /F1 12.8 Tf [(Theory Solution 3ed is universally compatible with any )] TJ ET
BT 34.016 144.100 Td /F1 12.8 Tf [(devices to read)] TJ ET
BT 34.016 87.732 Td /F1 12.8 Tf [(Discontinuous Finite Elements in Fluid Dynamics and Heat )] TJ ET
BT 34.016 72.164 Td /F1 12.8 Tf [(Transfer)] TJ ET
BT 81.484 72.164 Td /F1 12.8 Tf [( Ben Q. Li 2006-06-29 Over the past several years, )] TJ ET
BT 34.016 56.596 Td /F1 12.8 Tf [(significant advances have been made in developing the )] TJ ET
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BT 34.016 548.810 Td /F1 12.8 Tf [(discontinuous Galerkin finite element method for applications )] TJ ET
BT 34.016 533.242 Td /F1 12.8 Tf [(in fluid flow and heat transfer. Certain unique features of the )] TJ ET
BT 34.016 517.675 Td /F1 12.8 Tf [(method have made it attractive as an alternative for other )] TJ ET
BT 34.016 502.107 Td /F1 12.8 Tf [(popular methods such as finite volume and finite elements in )] TJ ET
BT 34.016 486.539 Td /F1 12.8 Tf [(thermal fluids engineering analyses. This book is written as )] TJ ET
BT 34.016 470.971 Td /F1 12.8 Tf [(an introductory textbook on the discontinuous finite element )] TJ ET
BT 34.016 455.404 Td /F1 12.8 Tf [(method for senior undergraduate and graduate students in )] TJ ET
BT 34.016 439.836 Td /F1 12.8 Tf [(the area of thermal science and fluid dynamics. It also can be )] TJ ET
BT 34.016 424.268 Td /F1 12.8 Tf [(used as a reference book for researchers and engineers who )] TJ ET
BT 34.016 408.700 Td /F1 12.8 Tf [(intend to use the method for research in computational fluid )] TJ ET
BT 34.016 393.133 Td /F1 12.8 Tf [(dynamics and heat transfer. A good portion of this book has )] TJ ET
BT 34.016 377.565 Td /F1 12.8 Tf [(been used in a course for computational fluid dynamics and )] TJ ET
BT 34.016 361.997 Td /F1 12.8 Tf [(heat transfer for senior undergraduate and first year graduate )] TJ ET
BT 34.016 346.429 Td /F1 12.8 Tf [(students. It also has been used by some graduate students )] TJ ET
BT 34.016 330.862 Td /F1 12.8 Tf [(for self-study of the basics of discontinuous finite elements. )] TJ ET
BT 34.016 315.294 Td /F1 12.8 Tf [(This monograph assumes that readers have a basic )] TJ ET
BT 34.016 299.726 Td /F1 12.8 Tf [(understanding of thermodynamics, fluid mechanics and heat )] TJ ET
BT 34.016 284.158 Td /F1 12.8 Tf [(transfer and some background in numerical analysis. )] TJ ET
BT 34.016 268.591 Td /F1 12.8 Tf [(Knowledge of continuous finite elements is not necessary but )] TJ ET
BT 34.016 253.023 Td /F1 12.8 Tf [(will be helpful. The book covers the application of the method )] TJ ET
BT 34.016 237.455 Td /F1 12.8 Tf [(for the simulation of both macroscopic and micro/nanoscale )] TJ ET
BT 34.016 221.887 Td /F1 12.8 Tf [(fluid flow and heat transfer phenomena.)] TJ ET
BT 34.016 206.320 Td /F1 12.8 Tf [(Books in Print)] TJ ET
BT 112.670 206.320 Td /F1 12.8 Tf [( 1987 )] TJ ET
BT 34.016 190.752 Td /F1 12.8 Tf [(The Publishers' Trade List Annual)] TJ ET
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BT 224.947 190.752 Td /F1 12.8 Tf [( 1985 )] TJ ET
BT 34.016 175.184 Td /F1 12.8 Tf [(Transcranial Magnetic and Electrical Brain Stimulation for )] TJ ET
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34.016 173.080 m 361.372 173.080 l S
BT 34.016 159.616 Td /F1 12.8 Tf [(Neurological Disorders)] TJ ET
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BT 162.956 159.616 Td /F1 12.8 Tf [( Bahman Zohuri 2022-08-26 )] TJ ET
BT 34.016 144.049 Td /F1 12.8 Tf [(Transcranial Magnetic and Electrical Brain Stimulation for )] TJ ET
BT 34.016 128.481 Td /F1 12.8 Tf [(Neurological Disorders examines the non-invasive application )] TJ ET
BT 34.016 112.913 Td /F1 12.8 Tf [(of electrical stimulation of the brain to treat neurological )] TJ ET
BT 34.016 97.345 Td /F1 12.8 Tf [(disorders, and to enhance individual/group performance. This )] TJ ET
BT 34.016 81.778 Td /F1 12.8 Tf [(volume discusses emerging electro-technologies such as )] TJ ET
BT 34.016 66.210 Td /F1 12.8 Tf [(transcranial direct current/alternating current electric fields )] TJ ET
BT 34.016 50.642 Td /F1 12.8 Tf [(and pulsed magnetic fields to treat many of these common )] TJ ET
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BT 34.016 548.810 Td /F1 12.8 Tf [(medical problems. Chapters begin by examining foundations )] TJ ET
BT 34.016 533.242 Td /F1 12.8 Tf [(of electromagnetic theory and wave equations that underly )] TJ ET
BT 34.016 517.675 Td /F1 12.8 Tf [(these technologies before discussing methods to treat )] TJ ET
BT 34.016 502.107 Td /F1 12.8 Tf [(disorders, the impact of technology and mental health and )] TJ ET
BT 34.016 486.539 Td /F1 12.8 Tf [(artificial intelligence. Discussing over 40 neurological )] TJ ET
BT 34.016 470.971 Td /F1 12.8 Tf [(diseases, this book presents coverage of techniques to treat )] TJ ET
BT 34.016 455.404 Td /F1 12.8 Tf [(stroke, epilepsy, Alzheimer’s Disease, Parkinson’s Disease, )] TJ ET
BT 34.016 439.836 Td /F1 12.8 Tf [(Huntington’s Disease, depression, schizophrenia, and many )] TJ ET
BT 34.016 424.268 Td /F1 12.8 Tf [(other diseases of the nervous system. Compares techniques )] TJ ET
BT 34.016 408.700 Td /F1 12.8 Tf [(so users can select ideal methods for their experiment )] TJ ET
BT 34.016 393.133 Td /F1 12.8 Tf [(Provides a focused tutorial introduction to core diseases of )] TJ ET
BT 34.016 377.565 Td /F1 12.8 Tf [(the nervous system, including stroke, epilepsy, Alzheimer’s, )] TJ ET
BT 34.016 361.997 Td /F1 12.8 Tf [(Parkinson’s, head and spinal cord trauma, schizophrenia, )] TJ ET
BT 34.016 346.429 Td /F1 12.8 Tf [(and more Covers more than 40 diseases, from foundational )] TJ ET
BT 34.016 330.862 Td /F1 12.8 Tf [(science to the best treatment protocols Includes discussions )] TJ ET
BT 34.016 315.294 Td /F1 12.8 Tf [(of translational research, drug discovery, personalized )] TJ ET
BT 34.016 299.726 Td /F1 12.8 Tf [(medicine, ethics and neuroscience Provides walk-through )] TJ ET
BT 34.016 284.158 Td /F1 12.8 Tf [(boxes that guide students step-by-step through the )] TJ ET
BT 34.016 268.591 Td /F1 12.8 Tf [(experiment)] TJ ET
BT 34.016 253.023 Td /F1 12.8 Tf [(Alternative Mathematical Theory of Non-equilibrium )] TJ ET
BT 34.016 237.455 Td /F1 12.8 Tf [(Phenomena)] TJ ET
BT 102.764 237.455 Td /F1 12.8 Tf [( Dieter Straub 1996-10-09 Alternative )] TJ ET
BT 34.016 221.887 Td /F1 12.8 Tf [(Mathematical Theory of Non-equilibrium Phenomena )] TJ ET
BT 34.016 206.320 Td /F1 12.8 Tf [(presents an entirely new theoretical approach to complex non-)] TJ ET
BT 34.016 190.752 Td /F1 12.8 Tf [(equilibrium phenomena, especially Gibbs/Falk )] TJ ET
BT 34.016 175.184 Td /F1 12.8 Tf [(thermodynamics and fluid mechanics. This innovative new )] TJ ET
BT 34.016 159.616 Td /F1 12.8 Tf [(theory allows for inclusion of all state variables and )] TJ ET
BT 34.016 144.049 Td /F1 12.8 Tf [(introduces a new vector-dissipation velocity-which leads to )] TJ ET
BT 34.016 128.481 Td /F1 12.8 Tf [(useful restatements of momentum, the Second Law, and )] TJ ET
BT 34.016 112.913 Td /F1 12.8 Tf [(tensors for the laws of motion, friction, and heat conduction. )] TJ ET
BT 34.016 97.345 Td /F1 12.8 Tf [(This application-oriented text is relatively self-contained and )] TJ ET
BT 34.016 81.778 Td /F1 12.8 Tf [(is an excellent guide-book for engineers with a strong interest )] TJ ET
BT 34.016 66.210 Td /F1 12.8 Tf [(in fundamentals, or for professionals using applied )] TJ ET
BT 34.016 50.642 Td /F1 12.8 Tf [(mathematics and physics in engineering applications. This )] TJ ET
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BT 34.016 548.810 Td /F1 12.8 Tf [(book emphasizes macroscopic phenomena, focusing )] TJ ET
BT 34.016 533.242 Td /F1 12.8 Tf [(specifically on gaseous states, though relations to liquid and )] TJ ET
BT 34.016 517.675 Td /F1 12.8 Tf [(crystalline states are also considered. The author presents a )] TJ ET
BT 34.016 502.107 Td /F1 12.8 Tf [(new Alternative Continuum Theory of Compressible Fluids )] TJ ET
BT 34.016 486.539 Td /F1 12.8 Tf [(\(AT\) which providesa qualitative description of the subject in )] TJ ET
BT 34.016 470.971 Td /F1 12.8 Tf [(predominantly physical terms, minimizing the mathematical )] TJ ET
BT 34.016 455.404 Td /F1 12.8 Tf [(premises. The methodology discussed has applications in a )] TJ ET
BT 34.016 439.836 Td /F1 12.8 Tf [(wide range of fields outside of physics in areas including )] TJ ET
BT 34.016 424.268 Td /F1 12.8 Tf [(General System Theory, TheoreticalEconomics, and )] TJ ET
BT 34.016 408.700 Td /F1 12.8 Tf [(Biophysics and Medicine. Presents the first theory capable of )] TJ ET
BT 34.016 393.133 Td /F1 12.8 Tf [(handling non-equilibria phenomena Offers a unified theory of )] TJ ET
BT 34.016 377.565 Td /F1 12.8 Tf [(all branches of macroscopic physics Considers a consistent )] TJ ET
BT 34.016 361.997 Td /F1 12.8 Tf [(and uniform view of reality, supported by modern )] TJ ET
BT 34.016 346.429 Td /F1 12.8 Tf [(mathematics, leading to results different than those produced )] TJ ET
BT 34.016 330.862 Td /F1 12.8 Tf [(by classical theories Results in a change of paradigms in )] TJ ET
BT 34.016 315.294 Td /F1 12.8 Tf [(physics, engineering, and natural philosophy)] TJ ET
BT 34.016 299.726 Td /F1 12.8 Tf [(Nanomagnetic Actuation in Biomedicine)] TJ ET
BT 259.359 299.726 Td /F1 12.8 Tf [( Jon Dobson 2018-01-)] TJ ET
BT 34.016 284.158 Td /F1 12.8 Tf [(09 The manipulation and control of cells and sub-cellular )] TJ ET
BT 34.016 268.591 Td /F1 12.8 Tf [(structures through magnetic nanoparticle-based actuation is )] TJ ET
BT 34.016 253.023 Td /F1 12.8 Tf [(a relatively new technique that has led to novel and exciting )] TJ ET
BT 34.016 237.455 Td /F1 12.8 Tf [(biomedical applications. Nanomagnetic actuation is being )] TJ ET
BT 34.016 221.887 Td /F1 12.8 Tf [(used in laboratory studies of stem cells to determine how )] TJ ET
BT 34.016 206.320 Td /F1 12.8 Tf [(these mechanical cues can be used to control stem cell )] TJ ET
BT 34.016 190.752 Td /F1 12.8 Tf [(differentiation for regenerative medicine applications. This )] TJ ET
BT 34.016 175.184 Td /F1 12.8 Tf [(book explores this rapidly expanding field. It will interest )] TJ ET
BT 34.016 159.616 Td /F1 12.8 Tf [(industry bioscientists and biomedical engineers as well as )] TJ ET
BT 34.016 144.049 Td /F1 12.8 Tf [(academics in cellular biomechanics, cell and tissue )] TJ ET
BT 34.016 128.481 Td /F1 12.8 Tf [(engineering, and regenerative medicine.)] TJ ET
BT 34.016 112.913 Td /F1 12.8 Tf [(Foundations for Radio Frequency Engineering)] TJ ET
BT 294.804 112.913 Td /F1 12.8 Tf [( Geyi Wen )] TJ ET
BT 34.016 97.345 Td /F1 12.8 Tf [(2015-03-13 The book provides a comprehensive coverage of )] TJ ET
BT 34.016 81.778 Td /F1 12.8 Tf [(the fundamental topics in microwave engineering, antennas )] TJ ET
BT 34.016 66.210 Td /F1 12.8 Tf [(and wave propagation, and electromagnetic compatibility, )] TJ ET
BT 34.016 50.642 Td /F1 12.8 Tf [(including electromagnetic boundary value problems, )] TJ ET
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BT 34.016 548.810 Td /F1 12.8 Tf [(waveguide theory, microwave resonators, antennas and )] TJ ET
BT 34.016 533.242 Td /F1 12.8 Tf [(wave propagation, microwave circuits, principles of )] TJ ET
BT 34.016 517.675 Td /F1 12.8 Tf [(electromagnetic compatibility designs, information theory and )] TJ ET
BT 34.016 502.107 Td /F1 12.8 Tf [(systems. Deals systematically with fundamental problems in )] TJ ET
BT 34.016 486.539 Td /F1 12.8 Tf [(radio frequency engineering, this important volume provides )] TJ ET
BT 34.016 470.971 Td /F1 12.8 Tf [(an updated treatment of radio frequency theory and )] TJ ET
BT 34.016 455.404 Td /F1 12.8 Tf [(techniques. The book can be used as a one-semester course )] TJ ET
BT 34.016 439.836 Td /F1 12.8 Tf [(for senior and first-year graduate students or as a reference )] TJ ET
BT 34.016 424.268 Td /F1 12.8 Tf [(for radio frequency engineers and applied physicists. )] TJ ET
BT 34.016 408.700 Td /F1 12.8 Tf [(Contents:Solutions of Electromagnetic Field )] TJ ET
BT 34.016 393.133 Td /F1 12.8 Tf [(ProblemsWaveguidesMicrowave ResonatorsMicrowave )] TJ ET
BT 34.016 377.565 Td /F1 12.8 Tf [(CircuitsAntennasPropagation of Radio )] TJ ET
BT 34.016 361.997 Td /F1 12.8 Tf [(WavesElectromagnetic CompatibilityInformation Theory and )] TJ ET
BT 34.016 346.429 Td /F1 12.8 Tf [(Systems Readership: Academics, researchers, )] TJ ET
BT 34.016 330.862 Td /F1 12.8 Tf [(postgraduates and undergraduates in electrical & electronic )] TJ ET
BT 34.016 315.294 Td /F1 12.8 Tf [(engineering and applied physics. Keywords:Microwave )] TJ ET
BT 34.016 299.726 Td /F1 12.8 Tf [(Engineering;Antenna;Wave Propagation;Electromagnetic )] TJ ET
BT 34.016 284.158 Td /F1 12.8 Tf [(Compatibility)] TJ ET
BT 34.016 268.591 Td /F1 12.8 Tf [(Introduction to Magnetism and Magnetic Materials)] TJ ET
BT 316.046 268.591 Td /F1 12.8 Tf [( David Jiles )] TJ ET
BT 34.016 253.023 Td /F1 12.8 Tf [(2015-09-18 A long overdue update, this edition of )] TJ ET
BT 34.016 237.455 Td /F1 12.8 Tf [(Introduction to Magnetism and Magnetic Materials is a )] TJ ET
BT 34.016 221.887 Td /F1 12.8 Tf [(complete revision of its predecessor. While it provides )] TJ ET
BT 34.016 206.320 Td /F1 12.8 Tf [(relatively minor updates to the first two sections, the third )] TJ ET
BT 34.016 190.752 Td /F1 12.8 Tf [(section contains vast updates to reflect the enormous )] TJ ET
BT 34.016 175.184 Td /F1 12.8 Tf [(progress made in applications in the past 15 years, )] TJ ET
BT 34.016 159.616 Td /F1 12.8 Tf [(particularly in magnetic recordin)] TJ ET
BT 34.016 144.049 Td /F1 12.8 Tf [(British Books in Print)] TJ ET
BT 151.634 144.049 Td /F1 12.8 Tf [( 1971 )] TJ ET
BT 34.016 128.481 Td /F1 12.8 Tf [(The Encyclopedia of Physics)] TJ ET
BT 196.999 128.481 Td /F1 12.8 Tf [( Robert Besancon 2013-11-11 )] TJ ET
BT 34.016 112.913 Td /F1 12.8 Tf [(Electromagnetic Theory; Problems and Solutions)] TJ ET
BT 310.372 112.913 Td /F1 12.8 Tf [( Keith )] TJ ET
BT 34.016 97.345 Td /F1 12.8 Tf [(Foster 1970 )] TJ ET
BT 34.016 81.778 Td /F1 12.8 Tf [(Force-Free Magnetic Fields: Solutions, Topology and )] TJ ET
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34.016 79.674 m 337.300 79.674 l S
BT 34.016 66.210 Td /F1 12.8 Tf [(Applications)] TJ ET
0.255 w 0 J [ ] 0 d
34.016 64.106 m 102.751 64.106 l S
BT 102.751 66.210 Td /F1 12.8 Tf [( G E Marsh 1996-01-31 After an introductory )] TJ ET
BT 34.016 50.642 Td /F1 12.8 Tf [(chapter concerned with the history of force-free magnetic )] TJ ET
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BT 34.016 548.810 Td /F1 12.8 Tf [(fields, and the relation of such fields to hydrodynamics and )] TJ ET
BT 34.016 533.242 Td /F1 12.8 Tf [(astrophysics, the book examines the limits imposed by the )] TJ ET
BT 34.016 517.675 Td /F1 12.8 Tf [(virial theorem for finite force-free configurations. Various )] TJ ET
BT 34.016 502.107 Td /F1 12.8 Tf [(techniques are then used to find solutions to the field )] TJ ET
BT 34.016 486.539 Td /F1 12.8 Tf [(equations. The fact that the field lines corresponding to these )] TJ ET
BT 34.016 470.971 Td /F1 12.8 Tf [(solutions have the common feature of being “twisted”, and )] TJ ET
BT 34.016 455.404 Td /F1 12.8 Tf [(may be knotted, motivates a discussion of field line topology )] TJ ET
BT 34.016 439.836 Td /F1 12.8 Tf [(and the concept of helicity. The topics of field topology, )] TJ ET
BT 34.016 424.268 Td /F1 12.8 Tf [(helicity, and magnetic energy in multiply connected domains )] TJ ET
BT 34.016 408.700 Td /F1 12.8 Tf [(make the book of interest to a rather wide audience. )] TJ ET
BT 34.016 393.133 Td /F1 12.8 Tf [(Applications to solar prominence models, type-II )] TJ ET
BT 34.016 377.565 Td /F1 12.8 Tf [(superconductors, and force-reduced magnets are also )] TJ ET
BT 34.016 361.997 Td /F1 12.8 Tf [(discussed. The book contains many figures and a wealth of )] TJ ET
BT 34.016 346.429 Td /F1 12.8 Tf [(material not readily available elsewhere. )] TJ ET
BT 34.016 330.862 Td /F1 12.8 Tf [(Contents:IntroductionThe Virial TheoremSolutions to the )] TJ ET
BT 34.016 315.294 Td /F1 12.8 Tf [(Force-Free Field EquationsField TopologyMagnetic Energy in )] TJ ET
BT 34.016 299.726 Td /F1 12.8 Tf [(Multiply Connected DomainsApplicationsForce-Free Fields )] TJ ET
BT 34.016 284.158 Td /F1 12.8 Tf [(and Electromagnetic WavesProof of the Jacobi Polynomial )] TJ ET
BT 34.016 268.591 Td /F1 12.8 Tf [(IdentitiesSeparation of the Wave Equation, Cyclides, and )] TJ ET
BT 34.016 253.023 Td /F1 12.8 Tf [(Boundary Conditions Readership: Students and researchers )] TJ ET
BT 34.016 237.455 Td /F1 12.8 Tf [(working in physics, astrophysics, hydrodynamics, plasma )] TJ ET
BT 34.016 221.887 Td /F1 12.8 Tf [(physics and energy research. keywords:Force-Free;Magnetic )] TJ ET
BT 34.016 206.320 Td /F1 12.8 Tf [(Filed Topology;Helicity \(Twist, Kink, Link\);Magnetic Energy in )] TJ ET
BT 34.016 190.752 Td /F1 12.8 Tf [(Multiply-Connected Domains;Magnetic Knots)] TJ ET
BT 34.016 175.184 Td /F1 12.8 Tf [(Scientific and Technical Books in Print)] TJ ET
BT 250.141 175.184 Td /F1 12.8 Tf [( 1972 )] TJ ET
BT 34.016 159.616 Td /F1 12.8 Tf [(Inertial Confinement Fusion Driven Thermonuclear Energy)] TJ ET
0.255 w 0 J [ ] 0 d
34.016 157.513 m 363.501 157.513 l S
BT 34.016 144.049 Td /F1 12.8 Tf [(Bahman Zohuri 2017-01-26 This book takes a holistic )] TJ ET
BT 34.016 128.481 Td /F1 12.8 Tf [(approach to plasma physics and controlled fusion via Inertial )] TJ ET
BT 34.016 112.913 Td /F1 12.8 Tf [(Confinement Fusion \(ICF\) techniques, establishing a new )] TJ ET
BT 34.016 97.345 Td /F1 12.8 Tf [(standard for clean nuclear power generation. Inertial )] TJ ET
BT 34.016 81.778 Td /F1 12.8 Tf [(Confinement Fusion techniques to enable laser-driven fusion )] TJ ET
BT 34.016 66.210 Td /F1 12.8 Tf [(have long been confined to the black-box of government )] TJ ET
BT 34.016 50.642 Td /F1 12.8 Tf [(classification due to related research on thermonuclear )] TJ ET
endstream
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BT 34.016 548.810 Td /F1 12.8 Tf [(weapons applications. This book is therefore the first of its )] TJ ET
BT 34.016 533.242 Td /F1 12.8 Tf [(kind to explain the physics, mathematics and methods behind )] TJ ET
BT 34.016 517.675 Td /F1 12.8 Tf [(the implosion of the Nd-Glass tiny balloon \(pellet\), using )] TJ ET
BT 34.016 502.107 Td /F1 12.8 Tf [(reliable and thoroughly referenced data sources. The )] TJ ET
BT 34.016 486.539 Td /F1 12.8 Tf [(associated computer code and numerical analysis are )] TJ ET
BT 34.016 470.971 Td /F1 12.8 Tf [(included in the book. No prior knowledge of Laser Driven )] TJ ET
BT 34.016 455.404 Td /F1 12.8 Tf [(Fusion and no more than basic background in plasma )] TJ ET
BT 34.016 439.836 Td /F1 12.8 Tf [(physics is required.)] TJ ET
BT 34.016 424.268 Td /F1 12.8 Tf [(Catalogue)] TJ ET
BT 92.130 424.268 Td /F1 12.8 Tf [( Stevens Institute of Technology 1971 )] TJ ET
BT 34.016 408.700 Td /F1 12.8 Tf [(Introduction to Electrodynamics)] TJ ET
BT 211.878 408.700 Td /F1 12.8 Tf [( David J. Griffiths 2017-06-29 )] TJ ET
BT 34.016 393.133 Td /F1 12.8 Tf [(This well-known undergraduate electrodynamics textbook is )] TJ ET
BT 34.016 377.565 Td /F1 12.8 Tf [(now available in a more affordable printing from Cambridge )] TJ ET
BT 34.016 361.997 Td /F1 12.8 Tf [(University Press. The Fourth Edition provides a rigorous, yet )] TJ ET
BT 34.016 346.429 Td /F1 12.8 Tf [(clear and accessible treatment of the fundamentals of )] TJ ET
BT 34.016 330.862 Td /F1 12.8 Tf [(electromagnetic theory and offers a sound platform for )] TJ ET
BT 34.016 315.294 Td /F1 12.8 Tf [(explorations of related applications \(AC circuits, antennas, )] TJ ET
BT 34.016 299.726 Td /F1 12.8 Tf [(transmission lines, plasmas, optics and more\). Written )] TJ ET
BT 34.016 284.158 Td /F1 12.8 Tf [(keeping in mind the conceptual hurdles typically faced by )] TJ ET
BT 34.016 268.591 Td /F1 12.8 Tf [(undergraduate students, this textbook illustrates the )] TJ ET
BT 34.016 253.023 Td /F1 12.8 Tf [(theoretical steps with well-chosen examples and careful )] TJ ET
BT 34.016 237.455 Td /F1 12.8 Tf [(illustrations. It balances text and equations, allowing the )] TJ ET
BT 34.016 221.887 Td /F1 12.8 Tf [(physics to shine through without compromising the rigour of )] TJ ET
BT 34.016 206.320 Td /F1 12.8 Tf [(the math, and includes numerous problems, varying from )] TJ ET
BT 34.016 190.752 Td /F1 12.8 Tf [(straightforward to elaborate, so that students can be )] TJ ET
BT 34.016 175.184 Td /F1 12.8 Tf [(assigned some problems to build their confidence and others )] TJ ET
BT 34.016 159.616 Td /F1 12.8 Tf [(to stretch their minds. A Solutions Manual is available to )] TJ ET
BT 34.016 144.049 Td /F1 12.8 Tf [(instructors teaching from the book; access can be requested )] TJ ET
BT 34.016 128.481 Td /F1 12.8 Tf [(from the resources section at )] TJ ET
BT 34.016 112.913 Td /F1 12.8 Tf [(www.cambridge.org/electrodynamics.)] TJ ET
BT 34.016 97.345 Td /F1 12.8 Tf [(Modern Electrodynamics)] TJ ET
BT 174.304 97.345 Td /F1 12.8 Tf [( Andrew Zangwill 2013 An engaging )] TJ ET
BT 34.016 81.778 Td /F1 12.8 Tf [(writing style and a strong focus on the physics make this )] TJ ET
BT 34.016 66.210 Td /F1 12.8 Tf [(graduate-level textbook a must-have for electromagnetism )] TJ ET
endstream
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BT 34.016 548.810 Td /F1 12.8 Tf [(students.)] TJ ET
BT 34.016 533.242 Td /F1 12.8 Tf [(Physical Chemistry)] TJ ET
BT 142.403 533.242 Td /F1 12.8 Tf [( George H. Duffey 1962 )] TJ ET
BT 34.016 517.675 Td /F1 12.8 Tf [(Deserfest)] TJ ET
BT 88.573 517.675 Td /F1 12.8 Tf [( Stanley Deser 2006 This volume comprises the )] TJ ET
BT 34.016 502.107 Td /F1 12.8 Tf [(contributions to the proceedings of Deserfest OCo a )] TJ ET
BT 34.016 486.539 Td /F1 12.8 Tf [(festschrift in honor of Stanley Deser. Many of Stanley )] TJ ET
BT 34.016 470.971 Td /F1 12.8 Tf [(Deser''s colleagues and longtime collaborators, including )] TJ ET
BT 34.016 455.404 Td /F1 12.8 Tf [(Richard Arnowitt and Charles Misner of OC ADMOCO fame, )] TJ ET
BT 34.016 439.836 Td /F1 12.8 Tf [(contribute insighted article. Ranging from lower dimensional )] TJ ET
BT 34.016 424.268 Td /F1 12.8 Tf [(gravity theories all the way to supergravity in eleven )] TJ ET
BT 34.016 408.700 Td /F1 12.8 Tf [(dimensions and M-theory, the papers highlight the wide )] TJ ET
BT 34.016 393.133 Td /F1 12.8 Tf [(impact that Deser has had in the field. Contents: Some )] TJ ET
BT 34.016 377.565 Td /F1 12.8 Tf [(Results in M-Theory Inspired Phenomenology \(R Arnowitt et )] TJ ET
BT 34.016 361.997 Td /F1 12.8 Tf [(al.\); A Non-Geometric Approach to 11-Dimensional )] TJ ET
BT 34.016 346.429 Td /F1 12.8 Tf [(Supergravity \(L Brink\); Generalized Holonomy in M-Theory \(A )] TJ ET
BT 34.016 330.862 Td /F1 12.8 Tf [(Batrachenko et al.\); Electric-Magnetic Duality in Gravity \(M )] TJ ET
BT 34.016 315.294 Td /F1 12.8 Tf [(Henneaux & C Teitelboim\); R 4 Terms in Supergravity and M-)] TJ ET
BT 34.016 299.726 Td /F1 12.8 Tf [(Theory \(P Howe\); Marriage of 4-Dimensional Gravity to the 3-)] TJ ET
BT 34.016 284.158 Td /F1 12.8 Tf [(Dimensional Chern-Simons Term \(R Jackiw\); Some )] TJ ET
BT 34.016 268.591 Td /F1 12.8 Tf [(Applications of the ADM Formalism \(J E Nelson\); The Main )] TJ ET
BT 34.016 253.023 Td /F1 12.8 Tf [(Postulates and Results of Loop Quantum Gravity \(L Smolin\); )] TJ ET
BT 34.016 237.455 Td /F1 12.8 Tf [(Milne and Torus Universes Meet \(A Waldron\); Diquarks as )] TJ ET
BT 34.016 221.887 Td /F1 12.8 Tf [(Inspiration and as Objects \(F Wilczek\); and other papers. )] TJ ET
BT 34.016 206.320 Td /F1 12.8 Tf [(Readership: Researchers in the field of high energy physics, )] TJ ET
BT 34.016 190.752 Td /F1 12.8 Tf [(gravitation and supersymmetry.")] TJ ET
BT 34.016 175.184 Td /F1 12.8 Tf [(Magnetite Biomineralization and Magnetoreception in )] TJ ET
BT 34.016 159.616 Td /F1 12.8 Tf [(Organisms)] TJ ET
BT 95.649 159.616 Td /F1 12.8 Tf [( Joseph L. Kirschvink 2013-04-17 The mystery of )] TJ ET
BT 34.016 144.049 Td /F1 12.8 Tf [(how migrating animals find their way over unfamiliar terrain )] TJ ET
BT 34.016 128.481 Td /F1 12.8 Tf [(has intrigued people for centuries, and has been the focus of )] TJ ET
BT 34.016 112.913 Td /F1 12.8 Tf [(productive research in the biological sci ences for several )] TJ ET
BT 34.016 97.345 Td /F1 12.8 Tf [(decades. Whether or not the earth's magnetic field had )] TJ ET
BT 34.016 81.778 Td /F1 12.8 Tf [(anything to do with their navigational abilities has sufaced )] TJ ET
BT 34.016 66.210 Td /F1 12.8 Tf [(and been dismissed several times, beginning at least in the )] TJ ET
BT 34.016 50.642 Td /F1 12.8 Tf [(mid to late 1800s. This topic generally remained out of the )] TJ ET
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BT 34.016 548.810 Td /F1 12.8 Tf [(mainstream of scientific research for two reasons: \(1\) The )] TJ ET
BT 34.016 533.242 Td /F1 12.8 Tf [(apparent irreproducibility of many of the be havioral )] TJ ET
BT 34.016 517.675 Td /F1 12.8 Tf [(experiments which were supposed to demonstrate the )] TJ ET
BT 34.016 502.107 Td /F1 12.8 Tf [(existence of the magnetic sense; and \(2\) Perceived )] TJ ET
BT 34.016 486.539 Td /F1 12.8 Tf [(theoretical difficulties which were encountered when biophysi )] TJ ET
BT 34.016 470.971 Td /F1 12.8 Tf [(cists tried to understand how such a sensory system might )] TJ ET
BT 34.016 455.404 Td /F1 12.8 Tf [(operate. However, during the mid to late 1960s as the )] TJ ET
BT 34.016 439.836 Td /F1 12.8 Tf [(science of ethology \(animal behavior\) grew, it became clear )] TJ ET
BT 34.016 424.268 Td /F1 12.8 Tf [(from studies on bees and birds that the geomagnetic field is )] TJ ET
BT 34.016 408.700 Td /F1 12.8 Tf [(used under a variety of conditions. As more and more )] TJ ET
BT 34.016 393.133 Td /F1 12.8 Tf [(organisms were found to have similar abilities, the problem )] TJ ET
BT 34.016 377.565 Td /F1 12.8 Tf [(shifted back to the question as to the basis of this perception. )] TJ ET
BT 34.016 361.997 Td /F1 12.8 Tf [(Of the various schemes for trans ducing the geomagnetic )] TJ ET
BT 34.016 346.429 Td /F1 12.8 Tf [(field to the nervous system which have been proposed, the )] TJ ET
BT 34.016 330.862 Td /F1 12.8 Tf [(hy pothesis of magnetite-based magnetoreception discussed )] TJ ET
BT 34.016 315.294 Td /F1 12.8 Tf [(at length in this volume has per haps the best potential for )] TJ ET
BT 34.016 299.726 Td /F1 12.8 Tf [(explaining a wide range of these effects, even though this link )] TJ ET
BT 34.016 284.158 Td /F1 12.8 Tf [(is as yet clear only in the case of magnetotactic bacteria.)] TJ ET
BT 34.016 268.591 Td /F1 12.8 Tf [(Catalog of Copyright Entries. Third Series)] TJ ET
BT 269.266 268.591 Td /F1 12.8 Tf [( Library of )] TJ ET
BT 34.016 253.023 Td /F1 12.8 Tf [(Congress. Copyright Office 1970 )] TJ ET
BT 34.016 237.455 Td /F1 12.8 Tf [(Catalogue)] TJ ET
BT 92.130 237.455 Td /F1 12.8 Tf [( Naval Postgraduate School \(U.S.\) 1970 )] TJ ET
BT 34.016 221.887 Td /F1 12.8 Tf [(Chemistry and the Environment)] TJ ET
BT 212.579 221.887 Td /F1 12.8 Tf [( Sven E. Harnung 2012-08-27 )] TJ ET
BT 34.016 206.320 Td /F1 12.8 Tf [(This textbook presents the chemistry of the environment )] TJ ET
BT 34.016 190.752 Td /F1 12.8 Tf [(using the full strength of physical, inorganic and organic )] TJ ET
BT 34.016 175.184 Td /F1 12.8 Tf [(chemistry, in addition to the necessary mathematics and )] TJ ET
BT 34.016 159.616 Td /F1 12.8 Tf [(physics. It provides a broad yet thorough description of the )] TJ ET
BT 34.016 144.049 Td /F1 12.8 Tf [(environment and the environmental impact of human activity )] TJ ET
BT 34.016 128.481 Td /F1 12.8 Tf [(using scientific principles. It gives an accessible account )] TJ ET
BT 34.016 112.913 Td /F1 12.8 Tf [(while paying attention to the fundamental basis of the )] TJ ET
BT 34.016 97.345 Td /F1 12.8 Tf [(science, showing derivations of formulas and giving primary )] TJ ET
BT 34.016 81.778 Td /F1 12.8 Tf [(references and historical insight. The authors make )] TJ ET
BT 34.016 66.210 Td /F1 12.8 Tf [(consistent use of professionally accepted nomenclature )] TJ ET
BT 34.016 50.642 Td /F1 12.8 Tf [(\(IUPAC and SI\), allowing transparent access to the material )] TJ ET
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BT 34.016 548.810 Td /F1 12.8 Tf [(by students and scientists from other fields. This textbook has )] TJ ET
BT 34.016 533.242 Td /F1 12.8 Tf [(been developed through many years of feedback from )] TJ ET
BT 34.016 517.675 Td /F1 12.8 Tf [(students and colleagues. It includes more than 400 online )] TJ ET
BT 34.016 502.107 Td /F1 12.8 Tf [(student exercises that have been class tested and refined. )] TJ ET
BT 34.016 486.539 Td /F1 12.8 Tf [(The book will be invaluable in environmental chemistry )] TJ ET
BT 34.016 470.971 Td /F1 12.8 Tf [(courses for advanced undergraduate and graduate students )] TJ ET
BT 34.016 455.404 Td /F1 12.8 Tf [(and professionals in chemistry and allied fields.)] TJ ET
BT 34.016 439.836 Td /F1 12.8 Tf [(Electromagnetic Field Solutions for the Natural Nodes of a )] TJ ET
BT 34.016 424.268 Td /F1 12.8 Tf [(Cylindrical Cavity Loaded with Lossy Materials)] TJ ET
BT 296.168 424.268 Td /F1 12.8 Tf [( Edward )] TJ ET
BT 34.016 408.700 Td /F1 12.8 Tf [(Benjamin Manring 1992 )] TJ ET
BT 34.016 393.133 Td /F1 12.8 Tf [(Intermediate Electromagnetic Theory)] TJ ET
0.255 w 0 J [ ] 0 d
34.016 391.029 m 243.052 391.029 l S
BT 243.052 393.133 Td /F1 12.8 Tf [( Joseph V. Stewart 2001 )] TJ ET
BT 34.016 377.565 Td /F1 12.8 Tf [(This invaluable text has been developed to provide students )] TJ ET
BT 34.016 361.997 Td /F1 12.8 Tf [(with more background on the applications of electricity and )] TJ ET
BT 34.016 346.429 Td /F1 12.8 Tf [(magnetism, particularly with those topics which relate to )] TJ ET
BT 34.016 330.862 Td /F1 12.8 Tf [(current research. For example, waveguides \(both metal and )] TJ ET
BT 34.016 315.294 Td /F1 12.8 Tf [(dielectric\) are discussed more thoroughly than in most texts )] TJ ET
BT 34.016 299.726 Td /F1 12.8 Tf [(because they are an important laboratory tool and important )] TJ ET
BT 34.016 284.158 Td /F1 12.8 Tf [(components of modern communications. In a sense, this )] TJ ET
BT 34.016 268.591 Td /F1 12.8 Tf [(book modernizes the topics covered in the typical course on )] TJ ET
BT 34.016 253.023 Td /F1 12.8 Tf [(electricity and magnetism. It provides not only solid )] TJ ET
BT 34.016 237.455 Td /F1 12.8 Tf [(background for the student who chooses a field which uses )] TJ ET
BT 34.016 221.887 Td /F1 12.8 Tf [(techniques requiring knowledge of electricity and magnetism, )] TJ ET
BT 34.016 206.320 Td /F1 12.8 Tf [(but also general background for the physics major.)] TJ ET
BT 34.016 190.752 Td /F1 12.8 Tf [(Foundations of electromagnetic theory)] TJ ET
BT 250.868 190.752 Td /F1 12.8 Tf [( John R. Reitz 1974 )] TJ ET
BT 34.016 175.184 Td /F1 12.8 Tf [(Comprehensive Chiroptical Spectroscopy)] TJ ET
0.255 w 0 J [ ] 0 d
34.016 173.080 m 267.838 173.080 l S
BT 267.838 175.184 Td /F1 12.8 Tf [( Nina Berova 2011-)] TJ ET
BT 34.016 159.616 Td /F1 12.8 Tf [(12-14 This book provides an introduction to the important )] TJ ET
BT 34.016 144.049 Td /F1 12.8 Tf [(methods of chiroptical spectroscopy in general, and circular )] TJ ET
BT 34.016 128.481 Td /F1 12.8 Tf [(dichroism \(CD\) in particular, which are increasingly important )] TJ ET
BT 34.016 112.913 Td /F1 12.8 Tf [(in all areas of chemistry, biochemistry, and structural biology. )] TJ ET
BT 34.016 97.345 Td /F1 12.8 Tf [(The book can be used as a text for undergraduate and )] TJ ET
BT 34.016 81.778 Td /F1 12.8 Tf [(graduate students and as a reference for researchers in )] TJ ET
BT 34.016 66.210 Td /F1 12.8 Tf [(academia and industry, with or without the companion )] TJ ET
BT 34.016 50.642 Td /F1 12.8 Tf [(volume in this set. Experimental methods and instrumentation )] TJ ET
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BT 34.016 548.810 Td /F1 12.8 Tf [(are described with topics ranging from the most widely used )] TJ ET
BT 34.016 533.242 Td /F1 12.8 Tf [(methods \(electronic and vibrational CD\) to frontier areas such )] TJ ET
BT 34.016 517.675 Td /F1 12.8 Tf [(as nonlinear spectroscopy and photoelectron CD, as well as )] TJ ET
BT 34.016 502.107 Td /F1 12.8 Tf [(the theory of chiroptical methods and techniques for )] TJ ET
BT 34.016 486.539 Td /F1 12.8 Tf [(simulating chiroptical properties. Each chapter is written by )] TJ ET
BT 34.016 470.971 Td /F1 12.8 Tf [(one or more leading authorities with extensive experience in )] TJ ET
BT 34.016 455.404 Td /F1 12.8 Tf [(the field.)] TJ ET
BT 34.016 439.836 Td /F1 12.8 Tf [(FY .. Annual ILIR Report)] TJ ET
BT 172.914 439.836 Td /F1 12.8 Tf [( Naval Undersea Warfare Center )] TJ ET
BT 34.016 424.268 Td /F1 12.8 Tf [(\(U.S.\). In-House Laboratory Independent Research Program )] TJ ET
BT 34.016 408.700 Td /F1 12.8 Tf [(1997 )] TJ ET
BT 34.016 393.133 Td /F1 12.8 Tf [(Computational Electromagnetics Using Boundary Elements)] TJ ET
BT 34.016 377.565 Td /F1 12.8 Tf [(Jinxing Shen 1995 )] TJ ET
BT 34.016 361.997 Td /F1 12.8 Tf [(Electro-Rheological Fluids and Magneto-Rheological )] TJ ET
BT 34.016 346.429 Td /F1 12.8 Tf [(Suspensions)] TJ ET
BT 107.009 346.429 Td /F1 12.8 Tf [( R Tao 2000-06-30 Electrorheological \(ER\) and )] TJ ET
BT 34.016 330.862 Td /F1 12.8 Tf [(magnetorheological \(MR\) fluids, which can be transformed )] TJ ET
BT 34.016 315.294 Td /F1 12.8 Tf [(from the liquid state into the solid state in milliseconds by )] TJ ET
BT 34.016 299.726 Td /F1 12.8 Tf [(applying an electric or a magnetic field, are smart fluids )] TJ ET
BT 34.016 284.158 Td /F1 12.8 Tf [(having the potential to revolutionize several industrial sectors. )] TJ ET
BT 34.016 268.591 Td /F1 12.8 Tf [(The Seventh International Conference on Electrorheological )] TJ ET
BT 34.016 253.023 Td /F1 12.8 Tf [(Fluids and Magnetorheological Suspensions took place at a )] TJ ET
BT 34.016 237.455 Td /F1 12.8 Tf [(time when some MR and ER applications were beginning to )] TJ ET
BT 34.016 221.887 Td /F1 12.8 Tf [(appear on the market, making a notable impact on industries. )] TJ ET
BT 34.016 206.320 Td /F1 12.8 Tf [(Scientists and engineers in multidisciplinary areas came )] TJ ET
BT 34.016 190.752 Td /F1 12.8 Tf [(together to explore the state-of-the-art technology and )] TJ ET
BT 34.016 175.184 Td /F1 12.8 Tf [(identify thrust areas to be focused on. This volume of )] TJ ET
BT 34.016 159.616 Td /F1 12.8 Tf [(proceedings collects contributions from most leading experts )] TJ ET
BT 34.016 144.049 Td /F1 12.8 Tf [(in the field. It reviews the most recent MR and ER )] TJ ET
BT 34.016 128.481 Td /F1 12.8 Tf [(applications, discusses the materials technology, explores )] TJ ET
BT 34.016 112.913 Td /F1 12.8 Tf [(the basic science research on ER and MR fluids, and )] TJ ET
BT 34.016 97.345 Td /F1 12.8 Tf [(examines the novel properties of these fluids. It provides the )] TJ ET
BT 34.016 81.778 Td /F1 12.8 Tf [(most up-to-date and probably the best information about the )] TJ ET
BT 34.016 66.210 Td /F1 12.8 Tf [(area. It can serve as a stimulating and valuable reference for )] TJ ET
BT 34.016 50.642 Td /F1 12.8 Tf [(research workers and students in materials science, )] TJ ET
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BT 34.016 548.810 Td /F1 12.8 Tf [(condensed matter physics, engineering, and chemistry. The )] TJ ET
BT 34.016 533.242 Td /F1 12.8 Tf [(valuable information not only reports on the leading edge of )] TJ ET
BT 34.016 517.675 Td /F1 12.8 Tf [(research and applications, but also provides an overview of )] TJ ET
BT 34.016 502.107 Td /F1 12.8 Tf [(the field. Contents:Materials Technology:Enhance the Yield )] TJ ET
BT 34.016 486.539 Td /F1 12.8 Tf [(Shear Stress of Magnetorheological Fluids \(X Tang et )] TJ ET
BT 34.016 470.971 Td /F1 12.8 Tf [(al.\)Muscular Contraction Mimiced by Magnetic Gels \(M Zrinyi )] TJ ET
BT 34.016 455.404 Td /F1 12.8 Tf [(& D Szabó\)Electroactive and Electrostructured Elastomer \(G )] TJ ET
BT 34.016 439.836 Td /F1 12.8 Tf [(Bossis et al.\)Physical Mechanisms:Parameters Affecting )] TJ ET
BT 34.016 424.268 Td /F1 12.8 Tf [(Lamellar Formations in ER Fluids: An Alternative Model for )] TJ ET
BT 34.016 408.700 Td /F1 12.8 Tf [(ER Activity \(F E Filisko & S Henley\)Transient Behavior of the )] TJ ET
BT 34.016 393.133 Td /F1 12.8 Tf [(Microstructure of Electrorheological Fluids in Shear Flow )] TJ ET
BT 34.016 377.565 Td /F1 12.8 Tf [(Mode \(S L Vieira et al.\)A Conduction Model Describing )] TJ ET
BT 34.016 361.997 Td /F1 12.8 Tf [(Particle–Particle Interaction in the Case of Surface )] TJ ET
BT 34.016 346.429 Td /F1 12.8 Tf [(Conducting Particles \(P Gonon et al.\)Microstructure:Evidence )] TJ ET
BT 34.016 330.862 Td /F1 12.8 Tf [(of Second Order Phase Transition in Ferrofluid in External )] TJ ET
BT 34.016 315.294 Td /F1 12.8 Tf [(Electric Field \(X Duan & W Luo\)Dynamic Simulation Studies )] TJ ET
BT 34.016 299.726 Td /F1 12.8 Tf [(of Structural Formation and Transition in Electro-Magneto-)] TJ ET
BT 34.016 284.158 Td /F1 12.8 Tf [(Rheological Fluids \(Z Wang et al.\)Structures of a )] TJ ET
BT 34.016 268.591 Td /F1 12.8 Tf [(Magnetorheological Fluid \(G L Gulley & R Tao\)Properties:A )] TJ ET
BT 34.016 253.023 Td /F1 12.8 Tf [(Comparison Between Electrorheological and )] TJ ET
BT 34.016 237.455 Td /F1 12.8 Tf [(Magnetorheological Fluids Subjected to Impulsive Loads \(A K )] TJ ET
BT 34.016 221.887 Td /F1 12.8 Tf [(E Wahed et al.\)Electrorheological Fluids Under Shear \(R Tao )] TJ ET
BT 34.016 206.320 Td /F1 12.8 Tf [(et al.\)Shearing Effects on the Electrorheological Response \(K )] TJ ET
BT 34.016 190.752 Td /F1 12.8 Tf [(Tanaka et al.\)Applications of Magnetorheological Fluids:Low-)] TJ ET
BT 34.016 175.184 Td /F1 12.8 Tf [(Cost MR Fluid Sponge Devices \(J D Carlson\)Heating of )] TJ ET
BT 34.016 159.616 Td /F1 12.8 Tf [(Magnetorheological Fluid Dampers: An Experimental Study )] TJ ET
BT 34.016 144.049 Td /F1 12.8 Tf [(\(F Gordaninejad & D G Breese\)Vibration Suppression of an )] TJ ET
BT 34.016 128.481 Td /F1 12.8 Tf [(MR Fluid Damper System with Frequency-Shaped LQ )] TJ ET
BT 34.016 112.913 Td /F1 12.8 Tf [(Control \(K Kim et al.\)Application of Electrorheological )] TJ ET
BT 34.016 97.345 Td /F1 12.8 Tf [(Fluids:Haptic Device Working with an Electrorheological Fluid )] TJ ET
BT 34.016 81.778 Td /F1 12.8 Tf [(\(H Böse & H-J Berkemeier\)Actuator Making Use of Electro-)] TJ ET
BT 34.016 66.210 Td /F1 12.8 Tf [(Rheological Fluids Proposition of Movable Electrode Type ER )] TJ ET
BT 34.016 50.642 Td /F1 12.8 Tf [(Actuator \(Y Kondoh & S Yokota\)Development of High-)] TJ ET
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BT 34.016 548.810 Td /F1 12.8 Tf [(Performance Actuators Using ER Fluids \(M Sakaguchi & J )] TJ ET
BT 34.016 533.242 Td /F1 12.8 Tf [(Furusho\)and other papers Readership: Materials scientists, )] TJ ET
BT 34.016 517.675 Td /F1 12.8 Tf [(condensed matter physicists, chemists and engineers. )] TJ ET
BT 34.016 502.107 Td /F1 12.8 Tf [(Keywords:Electrorheological;Magnetorheological;Fluid;Suspension;Microstructure;Condensed )] TJ ET
BT 34.016 486.539 Td /F1 12.8 Tf [(MatterReviews:“The papers in this book, describing the state )] TJ ET
BT 34.016 470.971 Td /F1 12.8 Tf [(of the art in ER and MR technology, would be very useful to )] TJ ET
BT 34.016 455.404 Td /F1 12.8 Tf [(researchers developing or applying these materials.”IEEE )] TJ ET
BT 34.016 439.836 Td /F1 12.8 Tf [(Electrical Insulation Magazine)] TJ ET
BT 34.016 424.268 Td /F1 12.8 Tf [(Introduction to Magnetism and Magnetic Materials, Second )] TJ ET
BT 34.016 408.700 Td /F1 12.8 Tf [(Edition)] TJ ET
BT 72.992 408.700 Td /F1 12.8 Tf [( David C. Jiles 1998-06-16 Few subjects in science )] TJ ET
BT 34.016 393.133 Td /F1 12.8 Tf [(are more difficult to understand than magnetism, according to )] TJ ET
BT 34.016 377.565 Td /F1 12.8 Tf [(Encyclopedia Britannica. However, there is a strong demand )] TJ ET
BT 34.016 361.997 Td /F1 12.8 Tf [(today for scientists and engineers with skills in magnetism )] TJ ET
BT 34.016 346.429 Td /F1 12.8 Tf [(because of the growing number of technological applications )] TJ ET
BT 34.016 330.862 Td /F1 12.8 Tf [(utilizing this phenomenon. This textbook responds to the )] TJ ET
BT 34.016 315.294 Td /F1 12.8 Tf [(need for a comprehensive introduction of the basic concepts )] TJ ET
BT 34.016 299.726 Td /F1 12.8 Tf [(of the science. Introduction to Magnetism and Magnetic )] TJ ET
BT 34.016 284.158 Td /F1 12.8 Tf [(Materials has been thoroughly revised since the first edition )] TJ ET
BT 34.016 268.591 Td /F1 12.8 Tf [(to include recent developments in the field. The early )] TJ ET
BT 34.016 253.023 Td /F1 12.8 Tf [(chapters comprise a discussion of the fundamentals of )] TJ ET
BT 34.016 237.455 Td /F1 12.8 Tf [(magnetism. These chapters include more than 60 sample )] TJ ET
BT 34.016 221.887 Td /F1 12.8 Tf [(problems with complete solutions to reinforce learning. The )] TJ ET
BT 34.016 206.320 Td /F1 12.8 Tf [(later chapters review the most significant recent )] TJ ET
BT 34.016 190.752 Td /F1 12.8 Tf [(developments in four important areas of magnetism: hard and )] TJ ET
BT 34.016 175.184 Td /F1 12.8 Tf [(soft magnetic materials, magnetic recording, and magnetic )] TJ ET
BT 34.016 159.616 Td /F1 12.8 Tf [(evaluation of materials. These later chapters also provide a )] TJ ET
BT 34.016 144.049 Td /F1 12.8 Tf [(survey of the most important areas of magnetic materials for )] TJ ET
BT 34.016 128.481 Td /F1 12.8 Tf [(practical applications. Extensive references to the principal )] TJ ET
BT 34.016 112.913 Td /F1 12.8 Tf [(publications in magnetism are listed at the end of each )] TJ ET
BT 34.016 97.345 Td /F1 12.8 Tf [(chapter, which offer the reader rapid access to more )] TJ ET
BT 34.016 81.778 Td /F1 12.8 Tf [(specialized literature. Students in various scientific areas will )] TJ ET
BT 34.016 66.210 Td /F1 12.8 Tf [(benefit from this book, including those in physics, materials )] TJ ET
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BT 34.016 548.810 Td /F1 12.8 Tf [(science, metallurgy, and electrical engineering.)] TJ ET
BT 34.016 533.242 Td /F1 12.8 Tf [(Deserfest: A Celebration Of The Life And Works Of Stanley )] TJ ET
BT 34.016 517.675 Td /F1 12.8 Tf [(Deser)] TJ ET
BT 68.020 517.675 Td /F1 12.8 Tf [( James T Liu 2006-03-15 This volume comprises the )] TJ ET
BT 34.016 502.107 Td /F1 12.8 Tf [(contributions to the proceedings of Deserfest — a festschrift )] TJ ET
BT 34.016 486.539 Td /F1 12.8 Tf [(in honor of Stanley Deser. Many of Stanley Deser's )] TJ ET
BT 34.016 470.971 Td /F1 12.8 Tf [(colleagues and longtime collaborators, including Richard )] TJ ET
BT 34.016 455.404 Td /F1 12.8 Tf [(Arnowitt and Charles Misner of “ADM” fame, contribute )] TJ ET
BT 34.016 439.836 Td /F1 12.8 Tf [(insighted article. Ranging from lower dimensional gravity )] TJ ET
BT 34.016 424.268 Td /F1 12.8 Tf [(theories all the way to supergravity in eleven dimensions and )] TJ ET
BT 34.016 408.700 Td /F1 12.8 Tf [(M-theory, the papers highlight the wide impact that Deser has )] TJ ET
BT 34.016 393.133 Td /F1 12.8 Tf [(had in the field.)] TJ ET
BT 34.016 377.565 Td /F1 12.8 Tf [(Mathematical Problems of Classical Nonlinear )] TJ ET
0.255 w 0 J [ ] 0 d
34.016 375.461 m 297.584 375.461 l S
BT 34.016 361.997 Td /F1 12.8 Tf [(Electromagnetic Theory)] TJ ET
0.255 w 0 J [ ] 0 d
34.016 359.893 m 168.643 359.893 l S
BT 168.643 361.997 Td /F1 12.8 Tf [( Frederick Bloom 2020-11-29 A )] TJ ET
BT 34.016 346.429 Td /F1 12.8 Tf [(survey of some problems of current interest in the realm of )] TJ ET
BT 34.016 330.862 Td /F1 12.8 Tf [(classical nonlinear electromagnetic theory.)] TJ ET
BT 34.016 315.294 Td /F1 12.8 Tf [(Proceedings of the 7th International Conference on Electro-)] TJ ET
0.255 w 0 J [ ] 0 d
34.016 313.190 m 369.940 313.190 l S
BT 34.016 299.726 Td /F1 12.8 Tf [(Rheological Fluids and Magneto-Rheological Suspensions)] TJ ET
0.255 w 0 J [ ] 0 d
34.016 297.622 m 363.527 297.622 l S
BT 34.016 284.158 Td /F1 12.8 Tf [(Rongjia Tao 2000 Electrorheological \(ER\) and )] TJ ET
BT 34.016 268.591 Td /F1 12.8 Tf [(magnetorheological \(MR\) fluids, which can be transformed )] TJ ET
BT 34.016 253.023 Td /F1 12.8 Tf [(from the liquid state into the solid state in milliseconds by )] TJ ET
BT 34.016 237.455 Td /F1 12.8 Tf [(applying an electric or a magnetic field, are smart fluids )] TJ ET
BT 34.016 221.887 Td /F1 12.8 Tf [(having the potential to revolutionize several industrial sectors. )] TJ ET
BT 34.016 206.320 Td /F1 12.8 Tf [(The Seventh International Conference on Electrorheological )] TJ ET
BT 34.016 190.752 Td /F1 12.8 Tf [(Fluids and Magnetorheological Suspensions took place at a )] TJ ET
BT 34.016 175.184 Td /F1 12.8 Tf [(time when some MR and ER applications were beginning to )] TJ ET
BT 34.016 159.616 Td /F1 12.8 Tf [(appear on the market, making a notable impact on industries. )] TJ ET
BT 34.016 144.049 Td /F1 12.8 Tf [(Scientists and engineers in multidisciplinary areas came )] TJ ET
BT 34.016 128.481 Td /F1 12.8 Tf [(together to explore the state-of-the-art technology and )] TJ ET
BT 34.016 112.913 Td /F1 12.8 Tf [(identify thrust areas to be focused on.This volume of )] TJ ET
BT 34.016 97.345 Td /F1 12.8 Tf [(proceedings collects contributions from most leading experts )] TJ ET
BT 34.016 81.778 Td /F1 12.8 Tf [(in the field. It reviews the most recent MR and ER )] TJ ET
BT 34.016 66.210 Td /F1 12.8 Tf [(applications, discusses the materials technology, explores )] TJ ET
BT 34.016 50.642 Td /F1 12.8 Tf [(the basic science research on ER and MR fluids, and )] TJ ET
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BT 34.016 548.810 Td /F1 12.8 Tf [(examines the novel properties of these fluids. It provides the )] TJ ET
BT 34.016 533.242 Td /F1 12.8 Tf [(most up-to-date and probably the best information about the )] TJ ET
BT 34.016 517.675 Td /F1 12.8 Tf [(area. It can serve as a stimulating and valuable reference for )] TJ ET
BT 34.016 502.107 Td /F1 12.8 Tf [(research workers and students in materials science, )] TJ ET
BT 34.016 486.539 Td /F1 12.8 Tf [(condensed matter physics, engineering, and chemistry. The )] TJ ET
BT 34.016 470.971 Td /F1 12.8 Tf [(valuable information not only reports on the leading edge of )] TJ ET
BT 34.016 455.404 Td /F1 12.8 Tf [(research and applications, but also provides an overview of )] TJ ET
BT 34.016 439.836 Td /F1 12.8 Tf [(the field.)] TJ ET
BT 34.016 424.268 Td /F1 12.8 Tf [(Design Sensitivity Analysis and Optimization of )] TJ ET
BT 34.016 408.700 Td /F1 12.8 Tf [(Electromagnetic Systems)] TJ ET
BT 177.848 408.700 Td /F1 12.8 Tf [( Il Han Park 2018-08-27 This book )] TJ ET
BT 34.016 393.133 Td /F1 12.8 Tf [(presents a comprehensive introduction to design sensitivity )] TJ ET
BT 34.016 377.565 Td /F1 12.8 Tf [(analysis theory as applied to electromagnetic systems. It )] TJ ET
BT 34.016 361.997 Td /F1 12.8 Tf [(treats the subject in a unified manner, providing numerical )] TJ ET
BT 34.016 346.429 Td /F1 12.8 Tf [(methods and design examples. The specific focus is on )] TJ ET
BT 34.016 330.862 Td /F1 12.8 Tf [(continuum design sensitivity analysis, which offers significant )] TJ ET
BT 34.016 315.294 Td /F1 12.8 Tf [(advantages over discrete design sensitivity methods. )] TJ ET
BT 34.016 299.726 Td /F1 12.8 Tf [(Continuum design sensitivity formulas are derived from the )] TJ ET
BT 34.016 284.158 Td /F1 12.8 Tf [(material derivative in continuum mechanics and the )] TJ ET
BT 34.016 268.591 Td /F1 12.8 Tf [(variational form of the governing equation. Continuum )] TJ ET
BT 34.016 253.023 Td /F1 12.8 Tf [(sensitivity analysis is applied to Maxwell equations of )] TJ ET
BT 34.016 237.455 Td /F1 12.8 Tf [(electrostatic, magnetostatic and eddy-current systems, and )] TJ ET
BT 34.016 221.887 Td /F1 12.8 Tf [(then the sensitivity formulas for each system are derived in a )] TJ ET
BT 34.016 206.320 Td /F1 12.8 Tf [(closed form; an integration along the design interface. The )] TJ ET
BT 34.016 190.752 Td /F1 12.8 Tf [(book also introduces the recent breakthrough of the topology )] TJ ET
BT 34.016 175.184 Td /F1 12.8 Tf [(optimization method, which is accomplished by coupling the )] TJ ET
BT 34.016 159.616 Td /F1 12.8 Tf [(level set method and continuum design sensitivity. This )] TJ ET
BT 34.016 144.049 Td /F1 12.8 Tf [(topology optimization method enhances the possibility of the )] TJ ET
BT 34.016 128.481 Td /F1 12.8 Tf [(global minimum with minimised computational time, and in )] TJ ET
BT 34.016 112.913 Td /F1 12.8 Tf [(addition the evolving shapes during the iterative design )] TJ ET
BT 34.016 97.345 Td /F1 12.8 Tf [(process are easily captured in the level set equation. )] TJ ET
BT 34.016 81.778 Td /F1 12.8 Tf [(Moreover, since the optimization algorithm is transformed into )] TJ ET
BT 34.016 66.210 Td /F1 12.8 Tf [(a well-known transient analysis algorithm for differential )] TJ ET
BT 34.016 50.642 Td /F1 12.8 Tf [(equations, its numerical implementation becomes very simple )] TJ ET
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BT 34.016 548.810 Td /F1 12.8 Tf [(and convenient. Despite the complex derivation processes )] TJ ET
BT 34.016 533.242 Td /F1 12.8 Tf [(and mathematical expressions, the obtained sensitivity )] TJ ET
BT 34.016 517.675 Td /F1 12.8 Tf [(formulas are very straightforward for numerical )] TJ ET
BT 34.016 502.107 Td /F1 12.8 Tf [(implementation. This book provides detailed explanation of )] TJ ET
BT 34.016 486.539 Td /F1 12.8 Tf [(the background theory and the derivation process, which will )] TJ ET
BT 34.016 470.971 Td /F1 12.8 Tf [(help readers understand the design method and will set the )] TJ ET
BT 34.016 455.404 Td /F1 12.8 Tf [(foundation for advanced research in the future.)] TJ ET
BT 34.016 439.836 Td /F1 12.8 Tf [(Antenna Synthesis through the Characteristics of Desired )] TJ ET
BT 34.016 424.268 Td /F1 12.8 Tf [(Amplitude)] TJ ET
BT 90.702 424.268 Td /F1 12.8 Tf [( Mykhaylo I. Andriychuk 2019-09-12 The book is )] TJ ET
BT 34.016 408.700 Td /F1 12.8 Tf [(devoted to the synthesis problems that arise in the theory )] TJ ET
BT 34.016 393.133 Td /F1 12.8 Tf [(and design of radiating systems \(antennas\). The )] TJ ET
BT 34.016 377.565 Td /F1 12.8 Tf [(characteristics of desired amplitude are data placed into a )] TJ ET
BT 34.016 361.997 Td /F1 12.8 Tf [(synthesis problem. A synthesis problem belongs to a class of )] TJ ET
BT 34.016 346.429 Td /F1 12.8 Tf [(inverse problems and its aim is to determine a distribution of )] TJ ET
BT 34.016 330.862 Td /F1 12.8 Tf [(current or fields in an antenna, which produces the amplitude )] TJ ET
BT 34.016 315.294 Td /F1 12.8 Tf [(radiation characteristic as close as possible to the desired )] TJ ET
BT 34.016 299.726 Td /F1 12.8 Tf [(one. Freedom of choice of phase distribution of the desired )] TJ ET
BT 34.016 284.158 Td /F1 12.8 Tf [(radiation pattern \(RP\) is used as an additional possibility of )] TJ ET
BT 34.016 268.591 Td /F1 12.8 Tf [(better approximation to such RPs. This book studies various )] TJ ET
BT 34.016 253.023 Td /F1 12.8 Tf [(different types of antennas and arrays as the radiation )] TJ ET
BT 34.016 237.455 Td /F1 12.8 Tf [(systems under consideration. A special class of problems )] TJ ET
BT 34.016 221.887 Td /F1 12.8 Tf [(related to acoustic and electromagnetic scattering on a set of )] TJ ET
BT 34.016 206.320 Td /F1 12.8 Tf [(bodies \(particles\) of small size is also discussed, while the )] TJ ET
BT 34.016 190.752 Td /F1 12.8 Tf [(constructive procedures of creating inhomogeneous materials )] TJ ET
BT 34.016 175.184 Td /F1 12.8 Tf [(with specific properties are proposed.)] TJ ET
BT 34.016 159.616 Td /F1 12.8 Tf [(Introduction to Electromagnetic Nondestructive Test Methods)] TJ ET
BT 34.016 144.049 Td /F1 12.8 Tf [(H. L. Libby 1971-01-15 )] TJ ET
BT 34.016 128.481 Td /F1 12.8 Tf [(Solved Problems in Classical Electromagnetism)] TJ ET
BT 303.959 128.481 Td /F1 12.8 Tf [( J. Pierrus )] TJ ET
BT 34.016 112.913 Td /F1 12.8 Tf [(2018-08-02 Classical electromagnetism - one of the )] TJ ET
BT 34.016 97.345 Td /F1 12.8 Tf [(fundamental pillars of physics - is an important topic for all )] TJ ET
BT 34.016 81.778 Td /F1 12.8 Tf [(types of physicists from the theoretical to the applied. The )] TJ ET
BT 34.016 66.210 Td /F1 12.8 Tf [(subject is widely recognized to be one of the most )] TJ ET
BT 34.016 50.642 Td /F1 12.8 Tf [(challenging areas of the physics curriculum, both for students )] TJ ET
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BT 34.016 548.810 Td /F1 12.8 Tf [(to learn and for lecturers to teach. Although textbooks on )] TJ ET
BT 34.016 533.242 Td /F1 12.8 Tf [(electromagnetism are plentiful, hardly any are written in the )] TJ ET
BT 34.016 517.675 Td /F1 12.8 Tf [(question-and-answer style format adopted in this book. It )] TJ ET
BT 34.016 502.107 Td /F1 12.8 Tf [(contains nearly 300 worked questions and solutions in )] TJ ET
BT 34.016 486.539 Td /F1 12.8 Tf [(classical electromagnetism, and is based on material usually )] TJ ET
BT 34.016 470.971 Td /F1 12.8 Tf [(encountered during the course of a standard university )] TJ ET
BT 34.016 455.404 Td /F1 12.8 Tf [(physics degree. Topics covered include some of the )] TJ ET
BT 34.016 439.836 Td /F1 12.8 Tf [(background mathematical techniques, electrostatics, )] TJ ET
BT 34.016 424.268 Td /F1 12.8 Tf [(magnetostatics, elementary circuit theory, electrodynamics, )] TJ ET
BT 34.016 408.700 Td /F1 12.8 Tf [(electromagnetic waves and electromagnetic radiation. For the )] TJ ET
BT 34.016 393.133 Td /F1 12.8 Tf [(most part the book deals with the microscopic theory, )] TJ ET
BT 34.016 377.565 Td /F1 12.8 Tf [(although we also introduce the important subject of )] TJ ET
BT 34.016 361.997 Td /F1 12.8 Tf [(macroscopic electromagnetism as well. Nearly all questions )] TJ ET
BT 34.016 346.429 Td /F1 12.8 Tf [(end with a series of comments whose purpose is to stimulate )] TJ ET
BT 34.016 330.862 Td /F1 12.8 Tf [(inductive reasoning and reach various important conclusions )] TJ ET
BT 34.016 315.294 Td /F1 12.8 Tf [(arising from the problem. Occasionally, points of historical )] TJ ET
BT 34.016 299.726 Td /F1 12.8 Tf [(interest are also mentioned. Both analytical and numerical )] TJ ET
BT 34.016 284.158 Td /F1 12.8 Tf [(techniques are used in obtaining and analyzing solutions. All )] TJ ET
BT 34.016 268.591 Td /F1 12.8 Tf [(computer calculations are performed with MathematicaCO® )] TJ ET
BT 34.016 253.023 Td /F1 12.8 Tf [(and the relevant code is provided in a notebook; either in the )] TJ ET
BT 34.016 237.455 Td /F1 12.8 Tf [(solution or the comments.)] TJ ET
BT 34.016 221.887 Td /F1 12.8 Tf [(Circuit Oriented Electromagnetic Modeling Using the PEEC )] TJ ET
BT 34.016 206.320 Td /F1 12.8 Tf [(Techniques)] TJ ET
BT 99.920 206.320 Td /F1 12.8 Tf [( Albert Ruehli 2017-06-19 3.1.4 Boundary )] TJ ET
BT 34.016 190.752 Td /F1 12.8 Tf [(Conditions -- 3.2 Auxiliary Potentials -- 3.2.1 Magnetic Vector )] TJ ET
BT 34.016 175.184 Td /F1 12.8 Tf [(Potential A and Electric Scalar Potential e -- 3.2.2 Electric )] TJ ET
BT 34.016 159.616 Td /F1 12.8 Tf [(Vector Potential F and Magnetic Scalar Potential m -- 3.2.3 )] TJ ET
BT 34.016 144.049 Td /F1 12.8 Tf [(Important Fundamental Relationships -- 3.3 Wave Equations )] TJ ET
BT 34.016 128.481 Td /F1 12.8 Tf [(and Their Solutions -- 3.3.1 Wave Equations for E and H -- )] TJ ET
BT 34.016 112.913 Td /F1 12.8 Tf [(3.3.2 Wave Equations for A, F, and e -- 3.3.3 Solution of the )] TJ ET
BT 34.016 97.345 Td /F1 12.8 Tf [(Helmholtz Equation -- 3.3.4 Electric Field Integral Equation -- )] TJ ET
BT 34.016 81.778 Td /F1 12.8 Tf [(3.4 Green's Function -- 3.4.1 Notation Used for Wave )] TJ ET
BT 34.016 66.210 Td /F1 12.8 Tf [(Number and Fourier Transform -- 3.4.2 Full Wave Free )] TJ ET
BT 34.016 50.642 Td /F1 12.8 Tf [(Space Green's Function -- 3.5 Equivalence Principles -- 3.5.1 )] TJ ET
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BT 34.016 548.810 Td /F1 12.8 Tf [(Volume Equivalence Principle -- 3.5.2 Huygens' Equivalence )] TJ ET
BT 34.016 533.242 Td /F1 12.8 Tf [(Principle -- 3.6 Numerical Solution of Integral Equations -- )] TJ ET
BT 34.016 517.675 Td /F1 12.8 Tf [(Problems -- References -- Chapter 4 Capacitance )] TJ ET
BT 34.016 502.107 Td /F1 12.8 Tf [(Computations -- 4.1 Multiconductor Capacitance Concepts -- )] TJ ET
BT 34.016 486.539 Td /F1 12.8 Tf [(4.2 Capacitance Models -- 4.2.1 Capacitance Models for )] TJ ET
BT 34.016 470.971 Td /F1 12.8 Tf [(Multiconductor Geometries -- 4.2.2 Short Circuit )] TJ ET
BT 34.016 455.404 Td /F1 12.8 Tf [(Capacitances -- 4.2.3 Coefficient of Potential Matrix Pp -- )] TJ ET
BT 34.016 439.836 Td /F1 12.8 Tf [(4.2.4 Capacitance of Conductor Systems -- 4.2.5 Elimination )] TJ ET
BT 34.016 424.268 Td /F1 12.8 Tf [(of a Floating Conductor Node -- 4.2.6 Floating or Reference )] TJ ET
BT 34.016 408.700 Td /F1 12.8 Tf [(Free Capacitances -- 4.3 Solution Techniques for )] TJ ET
BT 34.016 393.133 Td /F1 12.8 Tf [(Capacitance Problems -- 4.3.1 Differential Equation \(DE\) )] TJ ET
BT 34.016 377.565 Td /F1 12.8 Tf [(Methods for Capacitance Computations -- 4.4 Meshing )] TJ ET
BT 34.016 361.997 Td /F1 12.8 Tf [(Related Accuracy Problems for PEEC Model -- 4.4.1 Impact )] TJ ET
BT 34.016 346.429 Td /F1 12.8 Tf [(of Meshing on Capacitances and Stability and Passivity -- 4.5 )] TJ ET
BT 34.016 330.862 Td /F1 12.8 Tf [(Representation of Capacitive Currents for PEEC Models -- )] TJ ET
BT 34.016 315.294 Td /F1 12.8 Tf [(4.5.1 Quasistatic Capacitance-based Model -- 4.5.2 Current )] TJ ET
BT 34.016 299.726 Td /F1 12.8 Tf [(Source-Based Model for the Capacitances -- 4.5.3 Potential-)] TJ ET
BT 34.016 284.158 Td /F1 12.8 Tf [(Based Model for the Capacitances -- Problems -- )] TJ ET
BT 34.016 268.591 Td /F1 12.8 Tf [(References -- Chapter 5 Inductance Computations -- 5.1 )] TJ ET
BT 34.016 253.023 Td /F1 12.8 Tf [(Loop Inductance Computations -- 5.1.1 Loop Inductance )] TJ ET
BT 34.016 237.455 Td /F1 12.8 Tf [(Computation in Terms of Partial Inductances -- 5.1.2 Circuit )] TJ ET
BT 34.016 221.887 Td /F1 12.8 Tf [(Model for Partial Inductance Loop)] TJ ET
BT 34.016 206.320 Td /F1 12.8 Tf [(Permanent Magnet and Electromechanical Devices)] TJ ET
BT 323.836 206.320 Td /F1 12.8 Tf [( Edward )] TJ ET
BT 34.016 190.752 Td /F1 12.8 Tf [(P. Furlani 2001-09-05 The book provides both the theoretical )] TJ ET
BT 34.016 175.184 Td /F1 12.8 Tf [(and the applied background needed to predict magnetic )] TJ ET
BT 34.016 159.616 Td /F1 12.8 Tf [(fields. The theoretical presentation is reinforced with over 60 )] TJ ET
BT 34.016 144.049 Td /F1 12.8 Tf [(solved examples of practical engineering applications such )] TJ ET
BT 34.016 128.481 Td /F1 12.8 Tf [(as the design of magnetic components like solenoids, which )] TJ ET
BT 34.016 112.913 Td /F1 12.8 Tf [(are electromagnetic coils that are moved by electric currents )] TJ ET
BT 34.016 97.345 Td /F1 12.8 Tf [(and activate other devices such as circuit breakers. Other )] TJ ET
BT 34.016 81.778 Td /F1 12.8 Tf [(design applications would be for permanent magnet )] TJ ET
BT 34.016 66.210 Td /F1 12.8 Tf [(structures such as bearings and couplings, which are )] TJ ET
BT 34.016 50.642 Td /F1 12.8 Tf [(hardware mechanisms used to fashion a temporary )] TJ ET
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