Magnetic domains in a magnetic material are regions where atomic magnetic moments align in a common direction. These domains can be arranged in various ways, including in a random manner, aligned in specific directions, or in a more organized pattern depending on the material and external magnetic field. The overall magnetic properties of the material depend on the size, orientation, and interactions between these domains.
Something is either magnetized or not magnetized. There is no such thing as "unmagnetized magnetic" material.
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. by Limayrie E.
arranged in a specific direction within the material. This alignment creates magnetic properties and leads to the formation of magnetic domains. When these domains align, the material becomes magnetized.
In a magnet, the magnetic domains are aligned in a specific direction, giving the magnet its magnetic properties. When the domains are aligned, the magnet produces a magnetic field.
The domains in a magnetic material is aligned unlike the non-magnetic material which is scattered
Magnetic domains are regions within a magnetic material where the magnetic moments of the atoms are aligned in the same direction. These domains can vary in size and orientation within the material. When the domains are aligned, the material exhibits magnetic properties.
Magnetic domains in a magnetic material are regions where atomic magnetic moments align in a common direction. These domains can be arranged in various ways, including in a random manner, aligned in specific directions, or in a more organized pattern depending on the material and external magnetic field. The overall magnetic properties of the material depend on the size, orientation, and interactions between these domains.
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.
Something is either magnetized or not magnetized. There is no such thing as "unmagnetized magnetic" material.
In a magnetized material, magnetic domains are aligned in the same direction, creating a net magnetic field. In a material that is not magnetized, magnetic domains are randomly oriented, resulting in no overall magnetic field.
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. by Limayrie E.
arranged in a specific direction within the material. This alignment creates magnetic properties and leads to the formation of magnetic domains. When these domains align, the material becomes magnetized.
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.
Domains in a material affect its magnetic properties by aligning the magnetic moments of the atoms within them. When a material is magnetized, the domains align to create a net magnetic field. The strength and orientation of these domains determine the overall magnetic behavior of the material.
magnet attracks magnegtic material but magnetic meaterial does not atterck or repel\ magnet attracks magnegtic material but magnetic meaterial does not atterck or repel\The magnetic material is any material in which for a short time the domains are alligned in same direction.This material can be anything like iron,etc.The magnet is a steel in which the domains are permanently arranged in same direction by rubbing method.
A magnet.