A temporary magnet is called a soft magnet. It can be easily magnetized and demagnetized, unlike a permanent magnet that retains its magnetism for a longer period of time.
Two similar ends of a magnet (two north poles or two south poles) will produce a repulsive force, meaning they will push away from each other. This is due to the alignment of magnetic fields around the ends of the magnets.
Two similar ends of a magnet produce a repulsive force, which means that they will push away from each other. This force is the result of the alignment of the magnetic domains within the magnet creating a magnetic field that interacts between the like poles.
The curved turnaround that magnets resemble is called a "horseshoe magnet." This term is derived from the shape of the magnet, which resembles a horseshoe.
The area around a magnet where its magnetic force is felt is called the magnetic field.
The opposite ends of a magnet are called poles. All magnets have them.
poles
poles
The strongest parts of a magnet are called the magnetic poles. These poles are typically located at the ends of the magnet and are where the magnetic force is the strongest.
North and South (Poles) :)
The north and south ends of a magnet are called magnetic north pole and south pole. The ends are named such because of the Earth's North Pole and South Pole.
The north and south ends of a magnet are called poles. The north pole is attracted to the south pole, and vice versa, creating a magnetic field.
North and south poles.
At the two points or ends on a magnet, called the north and south poles.
The ends of a magnet are called the poles.
The ends of a magnet are called the poles. There are two types of poles: the north pole, which attracts the south pole of another magnet, and the south pole, which attracts the north pole of another magnet.
The ends of a bar magnet are generally called the north and south poles. However they are more accurately known as the North Attracting pole and the South Attracting pole as the respective ends of the magnet are drawn to the Earths north and south poles.