magnetic attraction - significado y definición. Qué es magnetic attraction
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Qué (quién) es magnetic attraction - definición

CLASS OF PHYSICAL PHENOMENA
Magnetic; Magnetic ordering; Nonmagnetic; Magnetically; Magneticism; Magnetics; Repulsive force (magnetism); Magnetize; Magnetisim; Magneticist; Non-magnetic; Magnetic attraction; Magnetic properties; Magnetic property; Speed of magnetism; Repulsion (magnetism); Magnetic studies; Magnetised; Magnetized
  • Drawing of a medical treatment using magnetic brushes. [[Charles Jacque]] 1843, France.
  • Antiferromagnetic ordering
  • An illustration from Gilbert's 1600 ''De Magnete'' showing one of the earliest methods of making a magnet. A blacksmith holds a piece of red-hot iron in a north–south direction and hammers it as it cools. The magnetic field of the Earth aligns the domains, leaving the iron a weak magnet.
  • An electromagnet attracts paper clips when current is applied creating a magnetic field. The electromagnet loses them when current and magnetic field are removed.
  • [[Ferrimagnetic]] ordering
  • [[Ferrofluid]] "spiked" up by a cube [[neodymium magnet]], following its [[magnetic field]]
  • teslas]]
  • [[Lodestone]], a natural [[magnet]], attracting iron nails. Ancient humans discovered the property of magnetism from lodestone.
  • Detecting magnetic field with compass and with iron filings
  • Magnetic orders: comparison between ferro, antiferro and ferrimagnetism
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List of Voltron episodes         
WIKIMEDIA LIST ARTICLE
Time Running Out; List of Voltron Episodes; Magnetic Attraction; The Shell Game (Voltron); Who's on First (Voltron)
The following is an episode list for the television series Voltron, an English language combination of the two unrelated Japanese series Beast King GoLion, and Armored Fleet Dairugger XV. The Voltron franchise, in total, has 200 episodes and one television special.
magnetic field         
  • [[Hans Christian Ørsted]], ''Der Geist in der Natur'', 1854
  • A sketch of Earth's magnetic field representing the source of the field as a magnet. The south pole of the magnetic field is near the geographic north pole of the Earth.
  • A [[Solenoid]] with electric current running through it behaves like a magnet.
  • '''M'''}} inside and outside a cylindrical bar magnet.
SPATIAL DISTRIBUTION OF VECTORS ALLOWING THE CALCULATION OF THE MAGNETIC FORCE ON A TEST PARTICLE
Magnetic flux density; B-Field; B-field; Magnetic field density; Magnetic Field; Magnetic field strength; Magnetic force field; Nonlinear magnetic field; Magnetic fields; Magnetic Flux Density; H-field; Magnatic field; B-fields; Magnetic field lines; Magnetic field line; Magnetizing field; Auxiliary magnetic field; H field; Effective magnetic field; Potential magnetic field; Magnetic field intensity; Strong magnetic field; Magnetic field energy density; Magnetic Field Energy Density; Magnetic field vector; Magnetic lines of force; Amperes per meter; Amperes per metre; Applied magnetic field; Ampere per metre; Magnetic vector
(magnetic fields)
A magnetic field is an area around a magnet, or something functioning as a magnet, in which the magnet's power to attract things is felt.
N-COUNT
Magnetic Lines of Force         
  • [[Hans Christian Ørsted]], ''Der Geist in der Natur'', 1854
  • A sketch of Earth's magnetic field representing the source of the field as a magnet. The south pole of the magnetic field is near the geographic north pole of the Earth.
  • A [[Solenoid]] with electric current running through it behaves like a magnet.
  • '''M'''}} inside and outside a cylindrical bar magnet.
SPATIAL DISTRIBUTION OF VECTORS ALLOWING THE CALCULATION OF THE MAGNETIC FORCE ON A TEST PARTICLE
Magnetic flux density; B-Field; B-field; Magnetic field density; Magnetic Field; Magnetic field strength; Magnetic force field; Nonlinear magnetic field; Magnetic fields; Magnetic Flux Density; H-field; Magnatic field; B-fields; Magnetic field lines; Magnetic field line; Magnetizing field; Auxiliary magnetic field; H field; Effective magnetic field; Potential magnetic field; Magnetic field intensity; Strong magnetic field; Magnetic field energy density; Magnetic Field Energy Density; Magnetic field vector; Magnetic lines of force; Amperes per meter; Amperes per metre; Applied magnetic field; Ampere per metre; Magnetic vector
Lines of force indicating the distribution of magnetic force, which is due presumably to whirls of the ether. A wire or conductor through which a current is passing is surrounded by an electro-magnetic field of force, q. v., whose lines of force form circles surrounding the conductor in question. A magnet marks the existence of a similar electro-magnetic field of force whose lines form circuits comprising part of and in some places all of the body of the magnet, and which are completed through the air or any surrounding paramagnetic or diamagnetic body. They may be thought of as formed by the Ampérian sheet of current, and analogous to those just mentioned as surrounding a conductor. Fig. 223. MAGNETIC LINES OF FORCE, DIRECTION OF. A magnetic line of force may be thought of as a set of vortices or whirls, parallel to each other, and strung along the line of force which is the locus of their centres. If as many lines are drawn per square centimeter as there are dynes (per unit pole) of force at the point in question, each such line will be a unitary c. g. s. line of force.

Wikipedia

Magnetism

Magnetism is the class of physical attributes that are mediated by a magnetic field, which refers to the capacity to induce attractive and repulsive phenomena in other entities. Electric currents and the magnetic moments of elementary particles giving rise to a magnetic field, which acts on other currents and magnetic moments. Magnetism is one aspect of the combined phenomena of electromagnetism. The most familiar effects occur in ferromagnetic materials, which are strongly attracted by magnetic fields and can be magnetized to become permanent magnets, producing magnetic fields themselves. Demagnetizing a magnet is also possible. Only a few substances are ferromagnetic; the most common ones are iron, cobalt, and nickel and their alloys. The rare-earth metals neodymium and samarium are less common examples. The prefix ferro- refers to iron because permanent magnetism was first observed in lodestone, a form of natural iron ore called magnetite, Fe3O4.

All substances exhibit some type of magnetism. Magnetic materials are classified according to their bulk susceptibility. Ferromagnetism is responsible for most of the effects of magnetism encountered in everyday life, but there are actually several types of magnetism. Paramagnetic substances, such as aluminium and oxygen, are weakly attracted to an applied magnetic field; diamagnetic substances, such as copper and carbon, are weakly repelled; while antiferromagnetic materials, such as chromium and spin glasses, have a more complex relationship with a magnetic field. The force of a magnet on paramagnetic, diamagnetic, and antiferromagnetic materials is usually too weak to be felt and can be detected only by laboratory instruments, so in everyday life, these substances are often described as non-magnetic.

The magnetic state (or magnetic phase) of a material depends on temperature, pressure, and the applied magnetic field. A material may exhibit more than one form of magnetism as these variables change.

The strength of a magnetic field almost always decreases with distance, though the exact mathematical relationship between strength and distance varies. Different configurations of magnetic moments and electric currents can result in complicated magnetic fields.

Only magnetic dipoles have been observed although some theories predict the existence of magnetic monopoles.

Ejemplos de uso de magnetic attraction
1. As a result, and due to the magnetic attraction and active policies of the European Union, eight post–communist democracies joined the EU on May 1 last year.
2. Petersburg, as if those two centers of government exerted a magnetic attraction strong enough to reach across the 11 time zones within Russia‘s borders.
3. With Russia prostrate, the magnetic attraction of Europe, along with a U.S. security guarantee, pulled just about every nation in the east into the Western orbit.
4. With Russia prostrate, the magnetic attraction of Europe, along with the promise of the American security guarantee, pulled just about every nation in the east into the Western orbit.
5. And is it just conservatives who think the United States ought not be gratuitously squandering one of its greatest assets –– its magnetic attraction to would–be immigrants around the world?