What Makes Iron Ferromagnetic?

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In summary, ferromagnetism is a property of certain materials, such as iron, where the exchange energy decreases as the spins align but the increase in kinetic energy is smaller due to the narrow bands of 3d electrons. The explanation for this phenomenon can vary depending on the model used.
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is this basic fact understood?
 
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Yes. This is because the exchange energy goes down by having spins align. But having spins aligned generally results in an increase in kinetic energy. That's true for any material. But for iron, the increase in kinetic energy is smaller than the decrease in exchange energy. This is because the bands for the 3d electrons in iron are narrow. They are narrow because 3d orbitals are fairly localized and 3d orbitals on neighboring atoms don't have much overlap.

You can get more or less sophisticated and/or convoluted answers from more or less sophisticated models.
 
  • #3
First, we must know the meaning of the term "FERROMAGNETIC"
Ferromagnetic is the phenomenon exhibited by substances, such as iron, that have relative permeabilities much greater than unity and increasing magnetization with applied magnetizing field. Certain of these substances retain their magnetization in the absence of the applied field. The effect is caused by the alignment of electron spin in regions called domains
 

What is ferromagnetism?

Ferromagnetism is the phenomenon in which certain materials, such as iron, become permanently magnetized when exposed to a magnetic field.

What causes iron to be ferromagnetic?

Iron is ferromagnetic because of its atomic structure. The outermost shell of iron atoms contains unpaired electrons, which are responsible for the magnetic properties of the material.

Why is iron the most commonly used ferromagnetic material?

Iron is the most commonly used ferromagnetic material because it is abundant, inexpensive, and has a high Curie temperature (the temperature at which it loses its ferromagnetic properties). It also has a high magnetic permeability, which means it can be easily magnetized and demagnetized.

How does temperature affect the ferromagnetic properties of iron?

As temperature increases, the thermal energy of the iron atoms also increases, causing the alignment of the magnetic domains to become more disordered. This reduces the overall magnetic strength of the material, and at the Curie temperature, iron loses its ferromagnetic properties altogether.

Are there any other materials that exhibit ferromagnetism?

Yes, there are many other materials that exhibit ferromagnetism, including cobalt, nickel, and various alloys and compounds. However, iron is the most commonly used and studied ferromagnetic material.

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