No
Depends on the shape of the magnet, but in general, the field is spheroid around the pole of the magnet.
To make a powerful magnet, use a strong magnetic material like neodymium. Shape it into a magnet by applying a magnetic field while it cools down. Finally, the magnet can be magnetized by rubbing it against a magnet or by exposing it to an electrical current.
bar magnet :- cuboid shapecylindrical magnet :- cylinder shape
no
The shape - U
there are main 4 different shape of magnets
no
When you rub a pin with a magnet, the pin's domains align in the same direction as the magnetic field produced by the magnet. This alignment leads to the pin becoming magnetized, with its own north and south poles.
A horseshoe magnet has two poles that are close together, which concentrate the magnetic field. A U-shaped magnet has a similar shape to a horseshoe magnet, but with one pole at each end, providing a more uniform magnetic field. A rod magnet has a simple cylindrical shape and its magnetic field is spread out along its length.
The shape of a magnet can impact its magnetic field by influencing the distribution and direction of the magnetic field lines. For example, a bar magnet will have a magnetic field that extends from one pole to the other, while a horseshoe magnet will concentrate the field between its poles. The shape can also affect the strength and direction of the magnetic field in different regions.
The magnetic field around the center of a magnet is generally in the shape of closed loops, with the magnetic field lines leaving one pole of the magnet and entering the other pole. This creates a three-dimensional shape resembling a donut or torus.
In general, magnets are brittle and will break before they bend. And yes, refrigerator magnets bend, but in them the magnetic material is powdered. But if we took a bar magnet and bent it, we'd have a horseshoe magnet. It's not quite that simple to make a horseshoe magnet, but it isn't too tough, either.