When one pole of a magnet is brought near each end of a hanging magnet, the hanging magnet will experience a force due to the interaction between the magnetic fields. Depending on the orientation of the poles involved, the hanging magnet may be attracted towards the other magnet if opposite poles are facing each other, or repelled if like poles are facing each other.
A straight magnet is commonly referred to as a "bar magnet." It has a uniform magnetic field and is characterized by having a north and south pole at each end. Bar magnets are often used in educational settings to demonstrate magnetic principles and can attract or repel other magnetic materials.
If there is a repulsion between A and N then A is North pole and B is South pole of the horse shoe magnet. If B and N repel each other the B is north and A is south of the horse shoe magnet.
You can find the North Pole of a magnet by using a compass. The end of the magnet that points to the north on the compass is the magnet's North Pole. Alternatively, you can use another magnet to determine the poles - opposite poles will attract each other (North attracts South) while like poles will repel each other (North repels North).
Magnet Records ended in 1988.
Each end of a magnet is called a pole. There are two types of poles on a magnet: a north pole and a south pole. These poles are where the magnetic field is strongest and where the magnetic forces originate from.
Those are called the poles of the magnet.
I believe it is just called the South end.
Pole
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 end of a magnet is called its pole. A magnet has two poles: a north pole and a south pole. These poles are where the magnetic field is strongest and where magnetic forces are generated.
When one pole of a magnet is brought near each end of a hanging magnet, the hanging magnet will experience a force due to the interaction between the magnetic fields. Depending on the orientation of the poles involved, the hanging magnet may be attracted towards the other magnet if opposite poles are facing each other, or repelled if like poles are facing each other.
No, it does not. The strength is identical on each end.
If they are the same, they repel, if different, they attract.
The ends of a magnet are called the poles.
A dumbbell-shaped magnet is typically referred to as a bar magnet due to its elongated shape with rounded ends resembling the dumbbell. It has north and south poles located at each end and exhibits magnetic properties along its length.
Because the magnetism runs from one end of the magnet to the other - across the whole magnet. You cannot have magnetism running in opposing directions in the SAME magnet.