A magnetic domain is a region of uniform magnetization within a material.
No!The smallest particle in which a magnet still has the same magnetic properties is a called a domain. If you split this domain into other remnants, then that particle shall seize to become a magnet and shall just be a piece of matter
When the external magnetic field is removed, the magnetic domain in a magnet can produce a weaker magnet due to randomization of the magnetic moments within the domains, causing them to lose alignment. This results in a decrease in the overall magnetic field strength of the magnet.
domain
yes because it acts on the magnet
A magnet, or a magnetic domain.
A permanent magnet.
I think it is a magnetic domain but not sure.
No!The smallest particle in which a magnet still has the same magnetic properties is a called a domain. If you split this domain into other remnants, then that particle shall seize to become a magnet and shall just be a piece of matter
heat
domain
When the external magnetic field is removed, the magnetic domain in a magnet can produce a weaker magnet due to randomization of the magnetic moments within the domains, causing them to lose alignment. This results in a decrease in the overall magnetic field strength of the magnet.
yes because it acts on the magnet
Domain
Domain.
A magnet, or a magnetic domain.
This is a really confusing question, but I believe you want to know how the magnetic domain at the north pole of a magnet is. The answer is uniform.
The domains at the north pole of a magnet have their magnetic poles pointing outward, creating a magnetic field that attracts the south pole of other magnets. Each domain has its magnetic north pole facing outward at the surface of the magnet.