Magnetic domains.
It is made of a type of magnetic iron called magnetite.
The magnet, in this case, will induce magnetism in the iron. The iron has lots of tiny areas that are magnetic, but normally point in random directions; placing a magnet nearby will allign those, and thus induce the magnetism.
Yes, iron is grouped into magnetic domains, which are small regions within the material where the magnetic moments of atoms are aligned in the same direction. In the absence of an external magnetic field, these domains are oriented randomly, resulting in no net magnetization. When exposed to a magnetic field, the domains can align, leading to a net magnetic effect, which is why iron is often used in magnets and magnetic materials.
Those are the minerals, such as iron, which have small magnetic regions (actually called magnetic domains, if I remember correctly) within them - that is, groups of atoms, each of them a tiny magnet, that have a tendency to align, all in the same direction.
Iron can be removed from talc by a process called magnetic separation. In this process, a magnetic separator is used to pull out the iron particles from the talc. The talc and iron mixture is passed through the magnetic separator, causing the iron particles to be attracted to the magnet and separated from the talc.
The magnet induces magnetism in the iron - small magnetic regions in the iron become aligned, due to the magnetic field.
It is made of a type of magnetic iron called magnetite.
The magnet, in this case, will induce magnetism in the iron. The iron has lots of tiny areas that are magnetic, but normally point in random directions; placing a magnet nearby will allign those, and thus induce the magnetism.
Magnetite, an iron oxide mineral is magnetic. It is also called 'lodestone'.
A material that attracts small pieces of iron is called a magnet. Magnets have magnetic properties that allow them to attract iron and other magnetic materials.
Yes, iron is grouped into magnetic domains, which are small regions within the material where the magnetic moments of atoms are aligned in the same direction. In the absence of an external magnetic field, these domains are oriented randomly, resulting in no net magnetization. When exposed to a magnetic field, the domains can align, leading to a net magnetic effect, which is why iron is often used in magnets and magnetic materials.
Iron and Nickel both have magnetic properties.
Those are the minerals, such as iron, which have small magnetic regions (actually called magnetic domains, if I remember correctly) within them - that is, groups of atoms, each of them a tiny magnet, that have a tendency to align, all in the same direction.
Iron can be removed from talc by a process called magnetic separation. In this process, a magnetic separator is used to pull out the iron particles from the talc. The talc and iron mixture is passed through the magnetic separator, causing the iron particles to be attracted to the magnet and separated from the talc.
Yes, iron is magnetic.
the answer is the iron of magnetic field so that it can cause magnetic field... iron.
It is called ferromagnitisum .