I do not understand your question. Are you referring to what element Cr is? If so, it is chromium. The full name of Cr2O3 is chromium oxide. If you are looking for valence electron levels use the SPDF valence shell ranges.
Chromium(III) oxide (Cr2O3) is generally considered to be weakly magnetic, exhibiting antiferromagnetic properties at room temperature. However, its magnetic behavior can vary depending on factors such as temperature and the presence of impurities. In certain conditions, it may show some ferromagnetic characteristics, but it is not classified as a strong magnetic material.
Water is magnetic material but dia magnetic
A magnetic material is able to stick to anything.
A magnet. The magnet will attract the magnetic material to it and so separate the magnetic material from the mixture.
No, cupronickel is not a magnetic material. It is a non-magnetic alloy composed of copper and nickel, making it resistant to magnetic fields.
Chromium(III) oxide (Cr2O3) is generally considered to be weakly magnetic, exhibiting antiferromagnetic properties at room temperature. However, its magnetic behavior can vary depending on factors such as temperature and the presence of impurities. In certain conditions, it may show some ferromagnetic characteristics, but it is not classified as a strong magnetic material.
Cr2O3 is an oxide.
Water is magnetic material but dia magnetic
temporarily magnetic
Silver is not magnetic. It is a non-magnetic material, which means it does not have magnetic properties and cannot be attracted by a magnet.
A magnetic material is a substance that is capable of producing a magnetic field. These materials are composed of atoms with magnetic properties that align in the presence of a magnetic field, allowing them to attract or repel other materials. Examples of magnetic materials include iron, nickel, and cobalt.
A magnetic material is able to stick to anything.
A magnetic material is able to stick to anything.
When a magnetic material is magnetized, its magnetic domains align in a specific direction, creating a net magnetic field within the material. This alignment results in the material becoming capable of attracting or repelling other magnetic materials.
A material that attracts a magnet. A magnetic material cannot repel, only attract.
The domains in a magnetic material is aligned unlike the non-magnetic material which is scattered
A magnet. The magnet will attract the magnetic material to it and so separate the magnetic material from the mixture.