The magnet will attract the iron, but will not attract the sulphur.
A plotting compass contains a small magnet on a needle that moves with almost no friction. Assuming there isn't another magnet nearby to interfere with the magnetic waves, the magnet in the compass will always point north, in the direction of the Magnetic North, which is very close to the North Pole.
Four common magnetic materials that are strongly attracted to a magnet are iron, nickel, cobalt, and certain alloys of these metals. This is because these materials have unpaired electrons in their atomic or molecular structure, which creates a magnetic moment. When a magnet is nearby, the magnetic field of the magnet aligns the magnetic moments of these materials, causing them to be strongly attracted to the magnet.
The magnet, in this case, will induce magnetism in the iron. The iron has lots of tiny areas that are magnetic, but normally point in random directions; placing a magnet nearby will allign those, and thus induce the magnetism.
That way, they can get a clear picture, from nearby, of any part of the Earth.That way, they can get a clear picture, from nearby, of any part of the Earth.That way, they can get a clear picture, from nearby, of any part of the Earth.That way, they can get a clear picture, from nearby, of any part of the Earth.
For nearby stars, the parallax method gives the most accurate measure of distances.For nearby stars, the parallax method gives the most accurate measure of distances.For nearby stars, the parallax method gives the most accurate measure of distances.For nearby stars, the parallax method gives the most accurate measure of distances.
React to the nearby presence of another magnet
A moving magnet will cause an electric field - a voltage. This can cause currents in nearby conductors.
Yes, that is why a magnet nearby can erase the contents (hehehe)
Lines of force go from a North pole of a magnet to the South pole external to a magnet, and through the magnet itself. This path is the magnetic circuit. It may be diverted and distorted by magnetic materials nearby.
Van Gogh then wrapped it in cloth, walked to a nearby bordello and presented the severed ear to a prostitute.
If a magnet is "left to float freely", it will align to any magnetic field - or more precisely, to the horizontal component of the magnetic field. And if there is no stronger magnet nearby, this field will be governed by Earth's magnetic field.
A plotting compass contains a small magnet on a needle that moves with almost no friction. Assuming there isn't another magnet nearby to interfere with the magnetic waves, the magnet in the compass will always point north, in the direction of the Magnetic North, which is very close to the North Pole.
if the magnet has a low enough mass, and the string induces very little forces and friction on the magnet, it will act like a compass, the south end will point to the north pole and vice versus with north
Four common magnetic materials that are strongly attracted to a magnet are iron, nickel, cobalt, and certain alloys of these metals. This is because these materials have unpaired electrons in their atomic or molecular structure, which creates a magnetic moment. When a magnet is nearby, the magnetic field of the magnet aligns the magnetic moments of these materials, causing them to be strongly attracted to the magnet.
surgical failure, breakdown of tissue, injury to nearby organs, or an excessively wrapped fundus leading to trouble swallowing.
Nothing
I think they would probably get lost