A magnetic domain is a region of uniform magnetization within a material.
A magnet, or a magnetic domain.
When the external magnetic field is removed, the magnetic domain in a magnet can produce a weaker magnet due to randomization of the magnetic moments within the domains, causing them to lose alignment. This results in a decrease in the overall magnetic field strength of the magnet.
When magnetic domain points in different directions, they create magnetic domains with different orientations within the material. This can lead to magnetic interactions between the domains, affecting the overall magnetic properties of the material. In materials with aligned domains, such as ferromagnetic materials, this alignment results in a net magnetic field.
Yes, that's the basic idea.
A group of atoms whose magnetic poles are aligned is known as a magnetic domain. In a material with magnetic domains, the individual atoms within each domain have their magnetic moments aligned in the same direction, which results in a net magnetic field for that domain.
A grouping of atoms that have their magnetic fields aligned is called a magnetic domain. In a material, these domains can interact and contribute to its overall magnetic properties.
A magnetic domain is made up of a group of atoms with aligned magnetic moments. These aligned magnetic moments create a magnetic field within the domain, which contributes to the overall magnetic properties of the material.
magnetic fields of atoms aligning
Glass and wood are two materials that have weak magnetic domains, meaning they are not attracted to magnets. The atomic structure in these materials does not allow for the alignment of magnetic domains, resulting in their lack of magnetic properties.
A magnetic domain is a region of uniform magnetization within a material.
A group of atoms within a magnet is called a magnetic domain. Each domain acts like a tiny magnet, and when these domains are aligned, the overall material exhibits magnetic properties.
A magnet, or a magnetic domain.
A. P. Malozemoff has written: 'Magnetic domain walls in bubble materials' -- subject(s): Domain structure, Magnetic bubbles
A magnetic domain is a region within a material where the magnetic moments of atoms are aligned in the same direction. These domains can change size, shape, and orientation in response to external magnetic fields.
A group of atoms with magnetic fields pointing in the same direction is called a magnetic domain. These domains are regions within a material where the magnetic moments of atoms align parallel to each other, creating a net magnetic moment for the domain.
If two materials have weak magnetic domains, it means that the magnetic moments of the atoms within these materials are not strongly aligned. This results in a weak overall magnetic effect exhibited by the materials.