A magnet has both a South pole and a North pole. The magnetic properties of a magnet come from the alignment of electrons inside of the magnet. The North pole of a magnet will repel another North pole, but attract a South pole, and vice versa.
Each piece would become a separate magnet with its own two poles, just like the original bar magnet. Cutting a bar magnet does not eliminate its magnetic properties; each piece will still have a north and south pole.
A strong magnet will attract steel due to its ferromagnetic properties, while it will not attract brass as it is not a ferromagnetic material.
Well, honey, actinium is not magnetic. It's a radioactive element that doesn't have magnetic properties. So, if you were planning on sticking a magnet to it, I hate to break it to you, but it ain't gonna work.
A magnet made from a steel paperclip is most likely a(n) temporary magnet.
Each piece will act as its own magnet with its own north and south poles. The magnetic properties will be distributed among the four smaller magnets, with each retaining the ability to attract and repel other magnets.
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A generator is tool that converts kinetic energy into electricity, through the use of magnets which is surrounded by magnetic fields. As a magnet starts turning its magnetic fields collide with a coil that surrounds the magnet. Which induces current, which is electricity.
Nothing happens, except that now you have two magnets. The poles of a magnet are not actually localized at the two ends of the magnet but are inherent to the magnetic properties of the magnet. As the magnetic properties are not altered by a modification of the magnet such as cutting it in half, there will be no effect on the poles of the magnet.
No. While electricity and magnetism are closely connected, the poles of a magnet no not correspond with electrical charges.
They are round. And they are magnetic. Without a specification for the magnet nothing more can be assumed.
A magnet is an object that is magnetic if it displays magnetic properties. Think of it like this; If bar magnet attracts a piece of metal towards it, it is using magnetism (fluxuations in electric current) and therefore the magnet can be said to have magnetic properties.
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atomic structure
Inside a magnet, there are tiny particles called atoms that have their own magnetic fields. These atoms align in the same direction, creating a magnetic field that gives the magnet its magnetic properties.
The real name of magnet is Magnetite or Lodestone. Magnet is a common name used to refer to objects that exhibit magnetic properties.