The magnetic domains of an unmagnetized material will be pointing in random directions, which is why it is appearing to me unmagnetized. In a magnetized material, they move from north to south.
The domains in non magnetized materials have random directions, as such they tend to cancel themselves out resulting in the absence of any overall magnetic field.
In a magnetized material the domains are aligned (all point more or less in the same direction) and as such they form an overall magnetic field.
In material that is not magnetized the domains are arranged randomly. In magnetized material the domains are lined up in the same direction.
The domains in a magnetic material is aligned unlike the non-magnetic material which is scattered
Domains in magnetized materials are all aligned in one direction - those in un-magnetized objects are arranged randomly.
In non magnetized material the domains are not ordered -
they do not align with one another.
Describe how domains in a magnetized material differ from those in an unmagnetized material?
THE ANSWERS IS THE magnetic domains of a magnet different
Non magnetic material is the one which cannot be easily magnetized even with intense magnetic field around it.
When a ferromagnetic substance is magnetized, the magnetic dipole moments of the atoms in the material line up in one direction and are able to produce a net magnetic field. This has to do with iron's elctron configuration on the atomic level.
The ability of some materials to become STRONGLY magnetized is related to the fact that the materials form magnetic domains, in which many atoms are aligned in a particular direction. Note that in this case, each atom is a tiny magnet.
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.
If it's made of a ferromagnetic material, sure. Otherwise, no, but a wire carrying a current will have a magnetic field. This is the whole concept behind electromagnets.
The domains in a magnetic material is aligned unlike the non-magnetic material which is scattered
Something is either magnetized or not magnetized. There is no such thing as "unmagnetized magnetic" material.
All materials are magnetized when placed in the magnetic field . The material magnetized by the effect of a magnetic field is called magnetic permeability.
saturation occurs when a magnetic material is as magnetized as it can get.
Generally, no you can't. A ferromagnetic material has what are called magnetic domains within it. These domains are effectively "tiny magnets" and are randomly arranged when they are in non-magnetized ferromagnetic metals. We can align them and make the material magnetic with the right equipment. A bit of metal that is not ferromagnetic has to domains to realign, so it can't be magnetized.
In non magnetized material the domains are not ordered -they do not align with one another.
In a magnetic material that is not a magnet, magnetic domains are arranged in random fashion canceling the net magnetic field. If such a material, like an iron rod, is exposed to a strong magnetic field, the domains will arrange themselves in the direction of the applied field and hence object will become magnetized.
Non magnetic material is the one which cannot be easily magnetized even with intense magnetic field around it.
Magnetization does not affect the mass of the material being magnetized. All the magnetizing field does is align the magnetic domains of the material being magnetized. No matter or mass is added, or "created out of energy" or the like. Nothing changes except the orientation of magnetic domains within the material being magnetized.
They are arranged randomly so ultimate magnetic effect is zero. But in some material they do not cancel and have some +ve or -ve value.
They are arranged randomly so ultimate magnetic effect is zero. But in some material they do not cancel and have some +ve or -ve value.
They are arranged randomly so ultimate magnetic effect is zero. But in some material they do not cancel and have some +ve or -ve value.