2007-03-22 15:29:18 · 6 answers · asked by delaxo34 1 in Science & Mathematics ➔ Physics
magnus is latin for strong force
2007-03-22 15:32:24 · answer #1 · answered by Anonymous · 0⤊ 0⤋
Hi. From the web: "Middle English, from Old French magnete, from Latin magnēs, magnēt-, from Greek Magnēs (lithos), Magnesian (stone), magnet, from Magnēsiā, Magnesia, an ancient city of Asia Minor."
2007-03-22 15:32:32 · answer #2 · answered by Cirric 7 · 1⤊ 1⤋
Magnetism ultimately is due to the motion of electric charge. For a macroscopic object, like a wire loop, an electric current flowing through it has a magnetic moment. Far from the loop there is a magnetic field proportional in strength to its magnetic moment.
For a microscopic object, the physical picture is more complex. An electron within an atom can have orbital angular momentum and a magnetic moment proportional to that orbital angular momentum; the electron also has intrinsic angular momentum, or spin, and a magnetic moment proportional to that spin angular momentum. The orbital and spin angular momentum of an electron are comparable in magnitude, as are their magnetic moments. Far from the electron there is a magnetic field proportional in strength to its magnetic moment.
In addition, within the atomic nucleus are both neutrons and protons, and these too have orbital and spin angular momentum, and associated magnetic moments. However, the nuclear magnetic moment typically is much smaller than the electron magnetic moment, because magnetic moment is proportional to angular momentum but inversely proportional to mass. Nevertheless, it is this relatively small nuclear magnetic moment that is responsible for nuclear magnetic resonance (NMR), which is the basis for magnetic resonance imaging (MRI).
Although most atoms and molecules have a net magnetic moment at temperatures well below room temperature, at room temperature they typically have no net magnetic moment. However, they can often be magnetized. If the orbital magnetic properties dominate, the response typically will be diamagnetic; if the intrinsic magnetic properties dominate, the response typically will be paramagnetic.
Solids are collections of atoms and molecules. At room temperature most solids are either diamagnetic or paramagnetic.
Although for many purposes it is convenient to think of a magnet as having magnetic poles, it must be remembered that no isolated magnetic pole has ever been observed. As indicated above, the proper description is ultimately one due to electrical currents. For a magnet, these currents should be thought of as circulating about its atoms, and flowing without any electrical resistance. This physical picture is due to André-Marie Ampère, and these atomic currents are known as Amperian currents. For a uniformly magnetized bar magnet in the shape of a cylinder, the net effect of the atomic currents is to make the magnet behave as if there is a sheet of current flowing around the cylinder, with local flow direction normal to the cylinder axis.
2007-03-22 15:33:55 · answer #3 · answered by fatman 2 · 0⤊ 3⤋
The first magnets way back when were lodestone, which was found near Magnesia, a region in Greece. Lodestone is rich in the mineral magnetite which gives it magnetic properties.
2007-03-22 15:40:53 · answer #4 · answered by qin137 2 · 1⤊ 1⤋
named from the mineral magnetite.
2007-03-22 15:51:18 · answer #5 · answered by Anonymous · 0⤊ 1⤋
magneticcccccc
2007-03-22 15:32:09 · answer #6 · answered by Anonymous · 0⤊ 2⤋