| Basics of magnetics magnetics, pdf file |
| Biot-Savart law The Biot-Savart Law relates magnetic fields to the currents |
| Bobine à noyau de fer pdf file, en Français |
| Champ magnétique en Français |
| Circuit magnétique en Français |
| Circuit magnétique en Français |
| Circuits magnétiques des machines en Français |
| Cool experiments with magnets devoted to magnetism and the cool experiments you can do with permanent magnets and electro-magnets. Some of the experiments are very basic, motors, levitation, electromagnets, Lenz, Faraday, neodymium, experiments with magnets, superconductors, superconductivity, electromagnetism, magnetic toys, magnetic fields |
| Current electricity and magnetism |
| Cycle d'hystérésis pdf file, en Français |
| Electricity & magnetism electric field, Gauss' law, electric potential, capacitance, magnetic field, Lorentz force Law, Hall Effect, Bio Savart law, electromagnetic induction, Lenz's & Faraday's law, Ampere's law, Ampere-Maxwell law, electromagnetic waves |
| Electricity & magnetism phenomena associated with electricity and magnetism |
| Electricity and magnetism online book in pdf format, 10 Megabyte |
| Electricity & magnetism electric field, Gauss' law, electric potential, capacitance, magnetic field, Lorentz force Law, Hall Effect, Bio Savart law, electromagnetic induction, Lenz's & Faraday's law, Ampere's law, Ampere-Maxwell law, electromagnetic waves |
| Electricity and magnetism demonstration models 2 |
| Électro-aimants en Français |
| Électro-aimants en Français |
| Électro-aimants en Français, pdf file |
| Electromagnetic force One of the four fundamental forces, the electromagnetic force manifests itself through the forces between charges (Coulomb's Law) and the magnetic force, ... |
| Electromagnetic induction when Michael Faraday made his discovery of electromagnetic induction in 1831, he hypothesized that a changing magnetic field is necessary to induce a current in a nearby circuit |
| Electromagnetic induction magnetic materials, permeability, magnetic permeance and reluctance, saturation, hysteresis, magnetic leakage and fringing, Faraday's induction law, Kirchoff´s laws |
| Elektromagnetisme elektromagneet, in Dutch |
| Elektromagnetisme elektromagneet, in Dutch |
| Elektromagnetisme en Français |
| Elektromagnetisme en Français |
| Elektromagnetisme en Français |
| Faraday's law pdf file |
| Faraday's law Faraday's law. Any change in the magnetic environment of a coil of wire will cause a voltage (emf) to be "induced" in the coil. No matter how the change is produced, the voltage will be generated. The change could be produced by changing the magnetic field strength, moving a magnet toward or away from the coil, moving the coil into or out of the magnetic field, rotating the coil relative to the magnet |
| Faraday's law induced voltage |
| Faraday's law |
| Faraday's law Faraday's law animation |
| Ferromagnetisme en Français |
| Ferromagnetisme magnetische permeabiliteit, verzadiging, remanent magnetisme, in Dutch |
| How an electromagnet works by running electric current through a wire, you can create a magnetic field |
| Hysteresis |
| Hysteresis in magnetic materials |
| Hysteresis loop hysteresis loop |
| Hysteresis loop and magnetic properties a hysteresis loop shows the relationship between the induced magnetic flux density B and the magnetizing force H. It is often referred to as the B-H loop |
| Lenz law The Induced current is such as to OPPOSE the CHANGE in applied field |
| Lenz law Lenz's Law states: An induced electromagnetic force generates a current that induces a counter magnetic field that opposes the magnetic field generating the current |
| Magnet formulas Maxwell and His Equations, the Law of Biot Savart, field due to electric current in an infinitely long, straight wire, ... |
| Magnetic field 2 |
| Magnetic field of current flow of charged particles Magnetic field of current flow of charged particles |
| Magnetic Force on a Current-Carrying Wire |
| Magnetic Induction Electromagnetic induction, Observation of Induction - Lenz's Law, The direction of any magnetic induction effect must oppose the cause of the effect, Faraday's Law Applied |
| Magnetics Technology Center |
| MAGNETICS® digital library many magnetic core, ferrite cores design manual |
| Magnetism: quantities, units and relationships magnetic terms & units in the SI, physical variables relevant to electromagnetism briefly described together with their interelationships, magnetization, magnetisation, unit, quantity, formula, design, calculate, wind, electric, magnetic |
| Magnetism magnetic properties of materials, magnetic fields, magnetic force lines, ferromagnetic materials, electromagnets, electricity and magnetisme, magnetic motor, animated |
| Magnetism |
| Magnetism the properties of an electromagnet (solenoid) that affect the its strength, the difference between slow and fast moving negative and positive charges passing through a magnetic field, relationship between current, magnetism, and the force created on a current bearing wire, DC electric motor, the way magnetic fields are used inside television or computer displays |
| Magnetism |
| Magnetism examine a magnetic field in detail and begin to explore the sources of magnetism, The Magnetic Field, Motion of a Charged Particle in a Magnetic Field, Magnetic Force on a Current Carrying Wire, Torque on a Current Carrying Loop, Sources of the Magnetic Field, A long straight wire, A circular loop, Solenoid, Force between two parallel wires |
| Magnetisme in Dutch |
| Magnetisme en het elektrisch veld in Dutch, pdf file |
| Magnétisme et aimants en Français |
| Magnétisme et électromagnétisme en Français |
| Magnetism and magnets some general information on magnetism and magnetic physics |
| Magnetism and electromagnetism |
| Magnetism, magnetic fields magnetism, magnetic fields, right hand rule, ... |
| Magnetism: quantities, units and relationships a tip |
| Magnétisme en Français |
| Magnétisme en Français |
| Magnétisme et inductance en Français, pdf file |
| Magnetics application guide pdf file |
| Matériaux et propriétés magnétiques en Français, pdf file |
| Milieux ferro en Français, pdf file |
| Opbouw magnetisch veld in Dutch, pdf file |
| Permanent magnet applications guide permanent magnet applications guide |
| Permanent magnet applications guide 2 basics of magnetics and applications information. Descriptions of various product types including: MPP, HI-FLUX, SUPER-MSS, Sendust, Toroidal Tape Cores, Silectron Toroids, Distributed Gap Cores |
| Permanent magnets permanent magnets, pdf file |
| Principles of magnetism and stray currents in rotating machinery Hysteresis Loop, Field Equations for Several Simple Configurations, Magnetism in Machinery, Gaussmeter |
| Eddy currents |
| Eddy current |
| Eddy current brake eddy current brake, when metal moves through a spatially varying magnetic field, or is located in a changing magnetic field, induced currents begin to circulate through the metal. These currents are called eddy currents |
| Eddy current brake eddy currents, movies |
| Eddy current Depth of Penetration Eddy currents are closed loops of induced current circulating in planes perpendicular to the magnetic flux |
| Eddy Current (Electromagnetic) Brake eddy current brake for railcars |
| Eddy current losses Eddy-Current Loss in iron and copper are due to currents flowing within the copper or core caused by induction. The result of eddy-currents is a loss due to heating within the inductors copper or core. Eddy-current losses are directly proportional to frequency, pdf file |
| Eddy current losses Eddy current losses, eddy currents |
| Eddy Current Pendulum |
| Eddy currents Eddy Current (Electromagnetic) Brake |
| Eddy current testing eddy currents, animated |
| Eddy current theory eddy currents, eddy current applications, animated |
| Eddy Current Tutorial Eddy Current Tutorial, what are Eddy currents? |
| Hysteresis loss |
| Magnetisation and Eddy Current Losses Different types of eddy currents are induced in magnets, eddy currents in copper spacers, collars and yokes, interfilament coupling currents |
| Power losses in wound components Resistance of the windings - 'copper loss'. Magnetic friction in the core - 'hysteresis'. Electric currents induced in the core - 'eddy currents'. Physical vibration and noise of the core and windings. Electromagnetic radiation. Dielectric loss in materials used to insulate the core and windings |
Saturday, March 20, 2010
Magnetism
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