Magnetism / Nejlevnější knihy
Magnetism

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Magnetism

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Source: Wikipedia. Pages: 155. Chapters: Electromagnetism, Electric current, Ferromagnetism, Paramagnetism, Superparamagnetism, Diamagnetism, Meissner effect, Ferroelectricity, Dielectric, Magnetic flux, Magnetic field, Magnet the ... celý popis


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Source: Wikipedia. Pages: 155. Chapters: Electromagnetism, Electric current, Ferromagnetism, Paramagnetism, Superparamagnetism, Diamagnetism, Meissner effect, Ferroelectricity, Dielectric, Magnetic flux, Magnetic field, Magnet therapy, Spin glass, Antiferromagnetism, Ampere-turn, Magnetosphere of Jupiter, Magnetic monopole, Magnetic moment, Magnetochemistry, Magnetic refrigeration, Magnetic levitation, Force between magnets, Single-molecule magnet, Magnetic susceptibility, Stoner-Wohlfarth model, Stellar magnetic field, Ferrofluid, Magnetic potential, Magnetoception, Magnetite, Zeeman effect, Pyrrhotite, Demagnetizing field, Negative temperature, Spin-orbit interaction, Degaussing, Faraday effect, Micromagnetism, Remanence, Spin ice, Gauss's law for magnetism, Single domain, Magnetization dynamics, Orders of magnitude, Saturation, Brillouin and Langevin functions, Magnetostatics, Bohr magneton, Spin magnetic moment, Domain wall, Electrodynamic suspension, Magnetic nanoparticles, Einstein-de Haas effect, Francis Bitter, Nuclear magnetic moment, Inductance with physical symmetry, Electrodynamic bearing, Ferrimagnetism, Magnetic flux quantum, Strongly correlated material, Preisach model of hysteresis, Spin stiffness, Magnetic pole strength, Bethe ansatz, John Allan Broun, Spin stabilized magnetic levitation, Ferrofluidic seal, Barkhausen effect, Ferromagnetic resonance, Photomagnetism, RKKY interaction, Thermomagnetic convection, Pascal's constants, Method of images, Weiss magneton, Excitation, Aeromagnetic survey, Parker spiral, De Haas-van Alphen effect, Spin model, Evans balance, Magnetic structure, Magnetomotive force, Superdiamagnetism, Geomagnetic secular variation, Shim, Epstein frame, Stoner-Wohlfarth astroid, Flux pinning, Goodness factor, Type-I superconductor, Magnetic river, Paraelectricity, Blackett effect, QMR effect, Barnett effect, Magnetic separation, Soken tester, Magnetic complex impedance, Heisenberg model, Magnetotaxis, Neutron magnetic moment, Faraday balance, Antiferroelectricity, Metamagnetism, Voigt Effect, Magnetic translation, Orbital motion, Magnetic field viewing film, Néel temperature, Rayleigh law, J1 J2 model, Gouy balance, Blas Cabrera, Nuclear magneton, Magnetic ionic liquid, Fermi contact interaction, Hanna curve, Quantum spin model, Bethe-Slater curve, Pinning force, Cotton-Mouton effect, Ideally hard superconductor, Magnetic inductive coil, Stoletov curve, Mictomagnetism, Superferromagnetism, Helimagnetism, Dannatt plates, Zeeman Energy, Morin transition, Vicalloy, Magnet keeper, Garshelis effect, Compressed magnetic flux generator. Excerpt: A magnetic field is a field of force produced by moving electric charges, by electric fields that vary in time, and by the 'intrinsic' magnetic field of elementary particles associated with the spin of the particle. There are two separate but closely related fields to which the name 'magnetic field' can refer: a magnetic field and a magnetic field. The magnetic field at any given point is specified by both a direction and a magnitude (or strength); as such it is a vector field. The magnetic field is most commonly defined in terms of the Lorentz force it exerts on moving electric charges. The relationship between the magnetic and electric fields, and the currents and charges that create them, is described by the set of Maxwell's equations. In special relativity, electric and magnetic fields are two interrelated aspects of a single object, called the electromagnetic f...

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