north pole
The magnetic fields of any magnet are greatest closest to the poles (north and south). The strength of the magnetic field decreases as you move away from the poles towards the center of the magnet.
Any object that is nuetral that does not have magnetic pole's
The strength of a magnet is measured using a device called a gaussmeter, which detects the magnetic field produced by the magnet. Factors that affect the magnetic field of a magnet include the material it is made of, its size and shape, and the presence of any external magnetic fields.
The strength of a neodymium magnet is determined by factors such as the grade of the magnet, the size and shape of the magnet, the temperature it is exposed to, and the presence of any external magnetic fields.
An object is considered a magnetic object if it is attracted to a magnet or if it has its own magnetic field that can interact with other magnetic fields. This can be tested by observing if the object is drawn toward a magnet, or by using a compass to detect any magnetic field it may produce.
A non-magnetic material, such as paper, plastic, or wood, would best reduce the attraction between a magnet and iron. These materials do not interact strongly with magnetic fields, so they will create a barrier that decreases the magnetic force between the magnet and the iron.
That would depend on the strength of the magnetic field of the magnet. As magnetic fields can influence electrical current, and our brains work on a massive series of electrical impulses, it's possible that there could be some interaction, but the magnetic field would need to be immense before any noticeable side effects became aparrent. Magnetic fields are all around us, the earth is basically one big magnet (that's why a needle in a compass points to north) so you could say life on earth is used to exposure to magnetic fields.
The strength of a magnet's pull or push is influenced by factors such as the material the magnet is made of, its size, and the distance between the magnet and the object it is attracting or repelling. Additionally, the shape of the magnet and any magnetic fields nearby can also affect its strength.
A non-magnetic material will not be attracted to a magnet and will not exhibit any magnetic properties. It will not stick to the magnet or experience any noticeable changes in its behavior when the magnet is placed near it.
No, calcite is not attracted to a magnet because it is not a magnetic mineral. Calcite is a non-magnetic mineral and will not exhibit any magnetic properties when placed near a magnet.
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.
Not any element is a magnet; but in a large sense any material has magnetic (including anti-) properties.