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Typically, an electric current creates a magnetic force. Also, magnetic domains aligned correctly and properly can cause a magnetic force.
Yes. When a material is magnetized the magnetic domains are aligned.
A virus is a microbe and it not a part of the three domains.
Archaea and Eukaryote are two different domains from the three domains of life classification. And Prokaryotes belong to two domains: the bacteria and the archaea.
Magnetic domains.
This is because the current kills the magnetized/domain particles and so it becomes un-magnetized. When the domains are magnetized they all face the direction of the magnet but when they have been destroyed by an AC current... they are pretty much jumbled together!
Removing magnetism from something is often called degaussing. A degausser uses an alternating current to create an alternating magnetic field that "sweeps" the magnetic fields from things in which they have appeared. The degausser randomizes the magnetic domains that had formed in the metal of the springs.
The three domains of the current classification system are Bacteria, Archaea, and Eukarya. These domains categorize organisms based on their cellular structure and evolutionary history.
Maybe your host doesn't allow you to have parked domains with your current package.
The presence of magnetic domains of alternating orientation parallel to the plate boundaries.
The magnetic poles of the magnetic domains are physically jarred and realign. They realign randomly. When a material appears to be strongly magnetized it is because these domains are aligned.
Self-development
It's possible. Striking a permanent magnet can jumble the orientation of the magnetic domains, resulting in a loss of strength.
it is the force experienced by a north pole of strength 'p' placed at a distance 'd' meters from another pole of strength 'm'in a medium of relative permeability.in a steel nail there are these things called domains, in a weakly magnetized nail some of them will be pointing north, south, east and west, but however in a strongly magnetized nail all the domains will point to north.
it is the force experienced by a north pole of strength 'p' placed at a distance 'd' meters from another pole of strength 'm'in a medium of relative permeability.in a steel nail there are these things called domains, in a weakly magnetized nail some of them will be pointing north, south, east and west, but however in a strongly magnetized nail all the domains will point to north.
They weren't superheroes. They were deified concepts. They didn't have set strengths or weaknesses; only domains over which they had influence.
The electromagnet is made stronger in proportion to the current given. Refer to the link provided for more information.AnswerWhen current passes through the coil of wire surrounding the core of an electromagnet, it acts to align the magnetic domains within that core. Once all the domains have been aligned, the electromagnet has reached 'saturation' and is as strong as it can get. So the strength of an electromagnet is NOT proportional to its magnetising current.