The atoms in a magnet are arranged in some kind of lattice, but the arrangement of the atoms is not what is important. What is important is that the magnetic dipoles of a good portion of the atoms are all "pointing" in the same direction. The aligned atomic magnetic dipoles form groups called magnetic domains, and these are locked in place making the magnet a permanent magnet. It "permanently" holds its magnet field, and is said to be a permanent magnet. And all because the magnetic domains in the ferromagnetic material are largely aligned.
Because a magnet is a solid, i would say thatthe atom structure would be what it is in a solid; arranged in rows. However because it is a magnet, they might be arranged differently due to the elctrons and protons being attacted at either ends of the magnet.
Sorry, hope this helped :)
It depends on the type of magnet, but I think you're looking for the fact that they are aligned in the same direction.
Oh my god... it is! Well spotted.
North and south poles
'magnetic domain' ref. Bakhausen effect
Within a magnet, the separate poles are composed of domains, regions where the individual atoms are aligned with parallel magnetic moments.
A magnetic field is created when the atoms of a magnet line to the north or south pole of the magnet. When two opposite poles face each other, the fields, and the atoms inside the magnet, line up, and this causes the attraction between the poles.
A permanent magnet has most of its domains arranged it the same direction.
Atoms
atoms and molecules are arranged and how they move
The atoms are arranged in repeating patterns.
Without magnetic domains a magnet wouldn't have its magnetism. Magnetic domains are clusters of iron atoms that line up in the smae direction when magnetised. When unmagnitized the iron atoms scatter.
If atoms are arranged in a repeated order they are negatively charged
The atoms in an iron are arranged in way were they are not able to slide, there are bigger and smaller atoms. This makes the iron hard.
hello,a magnet has several poles for every atom of a magnet has n,s poles.a bar magnet has two poles ,a ring magnet has no poles.so if a shape is different the atoms are arranged differenrtly and thus it affects its magnetism
"aligned"
they are arranged in layers just like bronze .
if it truly is a magnet, than no. however, you can demagnetize a magnet by dropping it or hitting it really hard to rearrange the domains within the magnet. Domains are the regions within a magnet that have particles that are either arranged so that the poles are attracted to each other or randomly arranged so that the particles are not magnetized at all. so if it is a magnet... it probably will be magnetic unless you take your anger out on it or something.
by shairing
How atoms are arranged in a molecule.
atoms
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