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North poles attract south poles, and the other way around as well. Two poles of the same kind will repel eachother.
domains
The atoms in a magnet are arranged in some kind of lattice, but the arrangement of the atoms is not what is important. What is important is that the magnetic dipoles of a good portion of the atoms are all "pointing" in the same direction. The aligned atomic magnetic dipoles form groups called magnetic domains, and these are locked in place making the magnet a permanent magnet. It "permanently" holds its magnet field, and is said to be a permanent magnet. And all because the magnetic domains in the ferromagnetic material are largely aligned.
They are only attracted to another magnet if thay are on opposite poles. If they are on the same pole then they will repel.
A magnet, or a magnetic domain.
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both sides (poles) of a magnet have the same magnetic charge
One magnet has two different poles. Thus they attract, and don't repulse, eachother.
Like poles repel, opposites attract. So a N pole of one bar magnet will repel the N pole of another bar magnet. And the same applies to two S poles.
dose metal get attracted to a magnet
Of course . You can make such a magnet easily using a safety pin. Take a safety pin and magnetize it using a permanent magnet. Then unfold it. The ends will have same poles and at the middle you will have the other. So you can have a magnet with three poles. Verify it using compass.
Put simply, a substance that has all the same atoms in, is classified as an element.
The poles of a magnet are not separate entities. There is no fixed part of the magnet called the North Pole or the South Pole.In a magnet, the magnetic moments of all the individual atoms are acting in the same direction, from one end to the other. We name one direction as the North Pole and one as the South Pole.So, even if the magnet is broken, the magnetic moments are still aligned in the same direction, and each of the pieces have their own respective North and South Poles.Note: by convention, we name the poles in such a way that the moment is directed from the South Pole to the North Pole, inside the magnet.