no, only in materials that can be magnetized
Magnetism is the property that affects objects with magnetic domains, which are regions within a material where atomic magnets are aligned in a common direction. When a magnetic field is present, these domains can align to create a magnetic force.
Each magnetic domain has a magnetic field. When an external magnetic field is applied, the magnetic domains will partially align, so the magnetic fields reinforce one another - instead of canceling one another, which is what happens when they are randomly distributed.
temporarily magnetic
I think you mean when you get a bigger magnet. To answer that question you need to know how a magnet works. All materials are made of molecules which are groups of atoms. These molecule organise in to groups called domains, everything is slightly magnetic because all the domains generate an electromagnetic field. When all the domains are aligned together (so all the north poles point one way) the magnetic force is noticable. If you have a bigger magnet then there are more domains to exert an electromagnetic force, I hope you got all that.
magnetic domains. itdescribes a region within a magnetic material which has uniform magnetization. This means that the individual magnetic moments of the atoms are aligned with one another and point in the same direction. Below a temperature called the Curie temperature, a piece of ferromagnetic material undergoes a phase transition and its magnetization spontaneously divides into many tiny magnetic domains, with their magnetic axes pointing in different directions. Magnetic domain structure is responsible for the magnetic behavior of ferromagnetic materials like iron. The regions separating magnetic domains are called domain walls where the magnetisation rotates coherently from the direction in one domain to that in the next domain.
No, magnetic domains are a phenomenon that only occurs in ferromagnetic materials.
In a magnetized substance, domains are small regions where magnetic moments align in the same direction. These domains help create the overall magnetic properties of the material by allowing it to be magnetized and retain its magnetism. When external magnetic fields are applied, domains can collectively align to strengthen the material's magnetic field.
Magnetic domains.
Yes. When a material is magnetized the magnetic domains are aligned.
Domains inside the magnetic
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.
The force that affects only objects with magnetic domains is the magnetic force. This force arises from the interactions between the magnetic fields of objects with magnetic domains and can attract or repel objects with magnetic properties.
domains
Magnetism is the property that affects objects with magnetic domains, which are regions within a material where atomic magnets are aligned in a common direction. When a magnetic field is present, these domains can align to create a magnetic force.
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.
In non magnetized material the domains are not ordered -they do not align with one another.
The domains in a magnetic material is aligned unlike the non-magnetic material which is scattered