# Magnetostatics

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Magnetostatics is the study of static magnetic fields. (Wikipedia.org)

# 3,193 resources related to Magnetostatics

### Conferences related to Magnetostatics

2020 IEEE International Symposium on Antennas and Propagation and North American Radio Science Meeting

The joint meeting is intended to provide an international forum for the exchange of information on state of the art research in the area of antennas and propagation, electromagnetic engineering and radio science

2020 IEEE 21st International Conference on Vacuum Electronics (IVEC)

Technical presentations will range from the fundamental physics of electron emission and modulated electron beams to the design and operation of devices at UHF to THz frequencies, theory and computational tool development, active and passive components, systems, and supporting technologies.System developers will find that IVEC provides a unique snapshot of the current state-of-the-art in vacuum electron devices. These devices continue to provide unmatched power and performance for advanced electromagnetic systems, particularly in the challenging frequency regimes of millimeter-wave and THz electronics.Plenary talks will provide insights into the history, the broad spectrum of fundamental physics, the scientific issues, and the technological applications driving the current directions in vacuum electronics research.

2020 IEEE International Conference on Plasma Science (ICOPS)

IEEE International Conference on Plasma Science (ICOPS) is an annual conference coordinated by the Plasma Science and Application Committee (PSAC) of the IEEE Nuclear & Plasma Sciences Society.

2020 IEEE International Magnetic Conference (INTERMAG)

INTERMAG is the premier conference on all aspects of applied magnetism and provides a range of oral and poster presentations, invited talks and symposia, a tutorial session, and exhibits reviewing the latest developments in magnetism.

2019 20th International Conference on Solid-State Sensors, Actuators and Microsystems & Eurosensors XXXIII (TRANSDUCERS & EUROSENSORS XXXIII)

The world's premiere conference in MEMS sensors, actuators and integrated micro and nano systems welcomes you to attend this four-day event showcasing major technological, scientific and commercial breakthroughs in mechanical, optical, chemical and biological devices and systems using micro and nanotechnology.The major areas of activity in the development of Transducers solicited and expected at this conference include but are not limited to: Bio, Medical, Chemical, and Micro Total Analysis Systems Fabrication and Packaging Mechanical and Physical Sensors Materials and Characterization Design, Simulation and Theory Actuators Optical MEMS RF MEMS Nanotechnology Energy and Power

### Periodicals related to Magnetostatics

Experimental and theoretical advances in antennas including design and development, and in the propagation of electromagnetic waves including scattering, diffraction and interaction with continuous media; and applications pertinent to antennas and propagation, such as remote sensing, applied optics, and millimeter and submillimeter wave techniques.

IEEE Antennas and Wireless Propagation Letters (AWP Letters) will be devoted to the rapid electronic publication of short manuscripts in the technical areas of Antennas and Wireless Propagation.

Contains articles on the applications and other relevant technology. Electronic applications include analog and digital circuits employing thin films and active devices such as Josephson junctions. Power applications include magnet design as well asmotors, generators, and power transmission

Broad coverage of concepts and methods of the physical and engineering sciences applied in biology and medicine, ranging from formalized mathematical theory through experimental science and technological development to practical clinical applications.

Educational methods, technology, and programs; history of technology; impact of evolving research on education.

### Xplore Articles related to Magnetostatics

Introduction to Numerical Electrostatics Using MATLAB, None

This introductory chapter provides a review of basic electrostatistics. It describes the terms charge, force, electric field and electric flux density, and explains Gauss's law. An ideal conductor of charge is a material in which the charge carriers are free to move about under the influence of electrostatic forces. The chapter also describes terms electric potential, gradient, capacitance, and energy ...

1990 IEEE International Magnetics Conference (INTERMAG), 1990

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Introduction to Numerical Electrostatics Using MATLAB, None

This chapter shows where actual use of electrostatic analysis is involved in actual structures. It begins with a section on basic circuit theory, because this is a discipline based on electrostatic (and magnetostatic) approximations whose use is implied in the functioning of the various structures. The chapter provides a brief introduction to transmission line theory that is presented in handbook ...

We prove the conjecture that$\alpha ^{-1}_{e,zz} \ge \alpha^{-1}_{m,xx} + \alpha^{-1}_{m,yy}$for a plane aperture of arbitrary shape, where αeand αmare the electric and magnetic polarizabilities.

1990 IEEE International Magnetics Conference (INTERMAG), 1990

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### Educational Resources on Magnetostatics

#### IEEE.tv Videos

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#### IEEE-USA E-Books

• This introductory chapter provides a review of basic electrostatistics. It describes the terms charge, force, electric field and electric flux density, and explains Gauss's law. An ideal conductor of charge is a material in which the charge carriers are free to move about under the influence of electrostatic forces. The chapter also describes terms electric potential, gradient, capacitance, and energy in an electric field. Later, Poisson's and Laplace's equations are explained. The chapter provides three examples of dielectric interfaces. It shows how the electrical properties of dipoles can be examined without getting entangled in considerations of dielectric interfaces. The chapter ends with a discussion of approximate numerical analysis.

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• This chapter shows where actual use of electrostatic analysis is involved in actual structures. It begins with a section on basic circuit theory, because this is a discipline based on electrostatic (and magnetostatic) approximations whose use is implied in the functioning of the various structures. The chapter provides a brief introduction to transmission line theory that is presented in handbook format, with only the necessary equations, with no supporting derivations. Although vacuum tubes and cathode ray tubes have been phased out by solid-state devices, some electron beam devices, such as the scanning electron microscope (SEM), remain in use. A very high electric field can be obtained by the combination of a very sharp thin tip of metal and the use of high potentials.

• We prove the conjecture that$\alpha ^{-1}_{e,zz} \ge \alpha^{-1}_{m,xx} + \alpha^{-1}_{m,yy}$for a plane aperture of arbitrary shape, where αeand αmare the electric and magnetic polarizabilities.

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• The behavior of the field components near the edge has been shown to be that of the static fields, which is derived here without rigor for an infinite wedge. Fields scattered by a finite dielectric wedge illuminated by an arbitrary plane monochromatic wave are computed using either singular or hypersingular integral equations (SIEs or HIEs), derived by the single integral equation method. Field components are then computed near the edge of a finite wedge. Longitudinal components of the fields behave like constants, other components of the electric field behave like those in the transverse magnetic mode, and other components of the magnetic field behave like those in the transverse electric mode. Exceptions occur when approaching the wedge along the bisector. Boundary functions and transverse field components computed with SIEs rise more sharply than predicted approaching the edge after a range in which the agreement with those computed with HIEs is good.

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