What Causes Magnetism and Repulsion in Magnets?

In summary: Magnetism is a physical property based on the atomic makeup of a material. In summary, magnetism is not a chemical property and is based on the atomic makeup of a material, specifically the spin of unpaired electrons that creates pocket domains. Chemistry does play a role in terms of the microstructure and effect on 'domains' in the material, but magnetism is primarily a physical property.
  • #1
Niaboc67
249
3
When you take two magnets one being positive, the other negative. What is the chemical makeup of these two magnets that makes them repel each other. And if I have this correct, electricity is caused by magnet coils spinning around which generates electricity. What is it about magnets (especially chemically) that gives them the property to make electricity and the ability to repel one another.

Thank you
 
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  • #2
A positive magnetic pole and a negative pole attract, and may be the same physical structure, a horseshoe magnet for instance, and chemically identical.

Magnetism is not a chemical property.
 
  • #3
Doug Huffman said:
A positive magnetic pole and a negative pole attract, and may be the same physical structure, a horseshoe magnet for instance, and chemically identical.

Magnetism is not a chemical property.

What is magnetism exactly then if it's not based on chemicals. Is it based on their atomic makeup?
 
  • #4
Niaboc67 said:
When you take two magnets one being positive, the other negative.

This sentence fragment is not clear. What is a positive magnet and a negative magnet?

You should do some basic research on magnetism, then ask your questions.

Here is a free tip to get you started:

http://en.wikipedia.org/wiki/Magnetism
 
  • #5
I am a proud sustaining contributor to The Wikimedia Foundation. I hope that you also will.
 
  • #6
Some background on magnets - permanent and ferromagnetic.
http://hyperphysics.phy-astr.gsu.edu/hbase/solids/magperm.html
http://hyperphysics.phy-astr.gsu.edu/hbase/solids/ferro.html#c4

Chemistry does play a role in terms of the microstructure and effect on 'domains' in the material. The effect of microstructure and independence from chemical composition can be seen in austenitic steels (which are not magnetic) that can be thermally treated to become ferritic and/or martensitic steels (which are magnetic). Rare Earth elements can be used to make magnets.

However, magnetism is considered a physical property rather than a chemical property.
 
  • #7
Iron is a common magnet component. Iron has 4 unpaired electrons, and so they have spin. This spin creates magnetism, if I remember correctly. Pocket domains are aligned, but not relative to each other, so an iron nail is not magnetic. However, if it is exposed to an external magnetic field, the domains align with the field and with each other, so the iron nail is now magnetic. Hope this helps.

Also, magnetism is studied by chemists, because chemists also look at atoms and their components. That's a place where physics and chemistry overlap somewhat. (You know: orbitals. That's definitely chemistry.)
 
  • #8
Niaboc67 said:
What is magnetism exactly then if it's not based on chemicals. Is it based on their atomic makeup?

Yes.
 

Related to What Causes Magnetism and Repulsion in Magnets?

What is the chemical composition of magnets?

Magnets are typically composed of iron, nickel, and cobalt. These metals have unique properties that allow them to become magnetized and attract other metals.

How do magnets work?

Magnets work by creating a magnetic field around them. This field is created by the alignment of magnetic moments in the atoms of the magnet, which causes them to attract or repel other magnetic objects.

What is the process of magnetization?

The process of magnetization involves exposing a material to a strong magnetic field, which causes the magnetic moments of the atoms to align in the same direction. This creates a strong magnetic field in the material, making it a magnet.

Can magnets lose their magnetism?

Yes, magnets can lose their magnetism over time. This can happen due to exposure to high temperatures, strong vibrations, or demagnetizing fields. However, some materials, such as neodymium, can retain their magnetism for a longer period of time.

What are the applications of magnets in chemical processes?

Magnets have many applications in chemical processes, such as separating magnetic materials from non-magnetic ones, removing metal impurities from chemicals, and stirring and mixing solutions. They are also used in magnetic resonance imaging (MRI) machines for medical diagnostics.

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