Yes, the two poles of a magnet have the same atoms and elements. The magnetic properties of a magnet are a result of the alignment of the atoms within the material, not a difference in the type of atoms present in the two poles.
A piece of iron doesn't behave as a magnet on its own because the magnetic domains within the iron are not aligned to create a magnetic field. In order for the iron to become magnetized and exhibit magnetic properties, an external magnetic field must be applied to align the domains.
Inside a magnet, there are tiny particles called atoms that have their own magnetic fields. These atoms align in the same direction, creating a magnetic field that gives the magnet its magnetic properties.
Within a magnet, the separate poles are composed of domains, regions where the individual atoms are aligned with parallel magnetic moments.
Electrons behave like tiny magnets because they have a property known as spin. This spin generates a magnetic field around the electron, giving it magnetic properties. When electrons are in motion, their spin causes them to act like small magnets, aligning with an external magnetic field.
The clusters of magnetic atoms in them, usually scrambled up, all get aligned with the electromagnetic field, so they also exert a magnetic force.
domain
If a bar of copper is brought near a magnet and rubbed it will get magnetized and would behave like magnet. But this would be temporary and this property would wear after some days.
I think it is a magnetic domain but not sure.
Yes, the two poles of a magnet have the same atoms and elements. The magnetic properties of a magnet are a result of the alignment of the atoms within the material, not a difference in the type of atoms present in the two poles.
A
A polyatomic ion is a group of atoms that behaves like a single ion. This group of atoms carries a charge and acts as a single unit in chemical reactions.
A piece of iron doesn't behave as a magnet on its own because the magnetic domains within the iron are not aligned to create a magnetic field. In order for the iron to become magnetized and exhibit magnetic properties, an external magnetic field must be applied to align the domains.
Even a single atom (if it is the right kind of atom) can generate a magnetic field, so there can be any number of atoms in a magnet, from one onwards to very large numbers, such as 1025.
Because they are all the same type of atoms. Oxygen is an element. If you have 10 oxygen atoms, they will all behave like oxygen, since they are the same element.
because the magnet causes particles called electrons in the atoms of the nail to align along the magnet's lines of force. The atoms with aligned electrons then act like tiny bar magnets themselves.
their internal structure makes them behave in a similar way.