This is a really confusing question, but I believe you want to know how the magnetic domain at the north pole of a magnet is. The answer is uniform.
Yes, if you put a north pole magnet at The Magnetic North Pole it will levitate
If, by 'south magnetic pole', you means 'Magnetic South', then the answer is the magnet's south pole. On the other hand, if you are referring to a south magnetic polairty, then the answer is the magnet's north pole.
The north pole of the magnet is the one that points north. The Earth magentic pole that is near the north pole is traditionally called the "magnetic north pole", but if you consider Earth as a magnet, it is really the SOUTH pole, since the north pole of a magnet is attracted to it.
A bar magnet is a magnet of rectangular shape with a north and and south end, which are sometimes coloured different colours to indicate which end is which.
This is a really confusing question, but I believe you want to know how the magnetic domain at the north pole of a magnet is. The answer is uniform.
This is a really confusing question, but I believe you want to know how the magnetic domain at the north pole of a magnet is. The answer is uniform.
This is a really confusing question, but I believe you want to know how the magnetic domain at the north pole of a magnet is. The answer is uniform.
this website is stupid i asked a question and it doesn't even answer it
Yes, if you put a north pole magnet at The Magnetic North Pole it will levitate
A magnet is an alignment of particles in a solid. You can imagine a magnet as a bunch of tiny magnets that are all pointing in the same direction. When they point in the same direction, the little parts add up, and the magnet works like you'd expect. When you heat or hammer a magnet, the little magnetic parts can get jostled and unaligned. When that alignment is disturbed, they no longer point in the same direction and may even cancel other magnetic parts out, weakening and eventualy destroying the magnetism.
north pole
In a regular magnetic compass, the needle is a magnet. One end is the south pole and the other end is the north pole. Magnets are affected by other magnets. If a magnet is placed near a magnetic compass, the north pole of the compass's needle is attracted by the south pole of the magnet, and the south pole of the compass's needle is attracted by the north pole of the magnet.
A compass has a magnet that points north, according to the Earth's magnetic field. It is useful, precisely, to find out where north is.A compass has a magnet that points north, according to the Earth's magnetic field. It is useful, precisely, to find out where north is.A compass has a magnet that points north, according to the Earth's magnetic field. It is useful, precisely, to find out where north is.A compass has a magnet that points north, according to the Earth's magnetic field. It is useful, precisely, to find out where north is.
it depends on the north of a magnet and the south of a magnet
Well there isn't any positive or negative on a magnet. But to find North and South, you can suspend a bar magnet on a string and see which way it points, or use a compass. Remember that the North Magnetic Pole defines what Magnetic North is, and on a compass or a bar magnet the SOUTH magnetic pole point at it.
At the magnet's north and south poles.