attraction
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.
a pole
Law of Magnetic Poles: Opposite magnetic poles attract, similar magnetic poles repel.
The field strength is greater closer to the ends of the bar magnet than near the center.
In physics, tension is a force transmitted through a string, rope, cable, or similar object when it is pulled tight by forces acting from opposite ends. It is a pulling force that arises when an object is elongated.
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.
Magnets always produce an electromagnetic force- between the similar ends of magnets it is electromagnetic repulsion.
Magnets always produce an electromagnetic force- between the similar ends of magnets it is electromagnetic repulsion.
The two ends, or poles.
The poles of a magnet are the ends of the core of the magnet, where the lines of force emerge. An experiment with iron filings shows the lines of force, by putting a sheet of paper over the magnet and sprinkling fine iron filings. This is an easy thing to do at home. For a bar magnet the poles will be at opposite ends. If you have two such magnets you can experiment and find that like poles repel, opposite poles attract.
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 opposite ends of a magnet are called poles. All magnets have them.
south pole north pole
The poles are situated at the ends of the bar magnet. The magnetic lines of force run through the magnet, emerge from one end, fold back around the length of the bar of the magnet, and curl back into the other end. The ends are the magnetic poles, and the magnetic lines of force emerge from one and re-enter the magnet at the other. You can see these lines by laying flat a piece of smooth paper over the magnet and sprinkling iron filings over the paper. Because they are light they will be easily moved into alignment by the magnetic field and will visually show the fields arrangement. (Using a piece of paper makes it easy to tidy up. Without it, the filings will stick to the magnet and be difficult to remove.)
North and South (Poles) :)
poles
The magnetic field and force are weakest at the poles of a magnet. This is because the magnetic field lines are more spread out at the poles, resulting in a lower field strength compared to the regions closer to the center of the magnet. Additionally, the force experienced by a magnetic material is weaker at the poles due to the lower magnetic field intensity in those areas.