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Production of Powerful Curie Temperatures Using Neodymium Magnets

Neodymium is an interesting chemical element with the atomic symbol Nd and chemical number 60. Neodymium belongs to the halogen series and is an unusual-earth element. It’s a soft, silvery gray metallic material which rapidly tarnishes when exposed in air and water. It was first found in 1833 by Carl Wilhelm Scheele, who noticed that it had a magnetic land very similar to magnetite and could be useful for enhancing navigation by indicating bearings and routes. Since that time, various different experiments with this compound were done using lead and magnets.


Theoretically, any two neodymium atoms will repel one another and consequently, a force similar to that of magnets should bind them together. If we could discover a way to intensify this fascination, we might have the ability to use neodymium as a powerful supply of permanent magnetism. Within this procedure, a molecule of this metal would be secured together by attaching two unpaired electrons. Neodymium atoms will probably have a single unpaired electron and can produce a current in a nearby cable or cable when the alignment of the atoms is accurate. Because it has a high number of unpaired electrons, the present will be very robust and, if we use the ideal material, it may be sufficient to induce a tiny electric current inside a really small circle.

Neodymium can be utilized for producing more powerful magnetic fields in software where powerful magnetic fields are required such as for biomedical implants and health care gear. But, it was not till recently that we discovered that we could utilize neodymium magnets for generating a curie temperature. If this temperature is reached, the surface of a hydrogen atom starts to buckle under the influence of these neodymium atoms, thus generating a separation of hydrogen molecules from the bulk of the atom. The separation of hydrogen atoms is utilized in applications where high voltage power is necessary, and researchers have discovered a way to make this happen by coupling the ferromagnetic properties of neodymium with hydrogen atoms within an efficient but safe method.