How does an electron's spin create magnetism?

In summary, magnetism is created by the alignment of electrons' spins and their magnetic moments in ferromagnetic materials such as iron. This alignment is a result of a cooperative quantum effect that produces large magnetic fields.
  • #1
Firestrider
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simple question: how does an electron's spin create magnetism?
 
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  • #2
In general, can you say what produces magnetism?
 
  • #3
My knowledge about it are restricted but I used to believe that Magnetism was created by many electrons that all have the same direction and sens, the spin would be the same. All those electron moving toward the same way would have effect on the space arround so the objects tend to have the same direction of electron because of the space deformation

we need a mentor here
 
  • #4
The two outer electrons in the iron atom tend to line up with their spins aligned. Electrons have a magnetic moment (due to a quantum effect, the Dirac equation) that is aligned with their spin. In ferromagnetism, a cooperative quantum effect lines up all the magnetic moments in large chunks of iron producing large magnetic fields.
 

1. What is the relationship between an electron's spin and magnetism?

The spin of an electron is one of its intrinsic properties, and it can be thought of as the electron's angular momentum. This spin creates a magnetic moment, which is a measure of the strength and direction of the electron's magnetic field.

2. How does an electron's spin create a magnetic field?

When an electron spins, it creates a tiny magnetic field around itself. This magnetic field interacts with other magnetic fields, such as those from other electrons, and can align to create a larger magnetic field.

3. Can an electron's spin direction be changed?

Yes, an electron's spin direction can be changed by applying an external magnetic field. This process is known as electron spin resonance and is commonly used in scientific research and medical imaging technologies.

4. Does the spin of an electron always create a magnetic field?

No, the spin of an electron can only create a magnetic field if the electron is in motion. If an electron is stationary, its spin does not create a magnetic field.

5. How is electron spin related to magnetic materials?

The spin of electrons is responsible for the magnetic properties of materials such as iron, cobalt, and nickel. In these materials, the electrons' spins are aligned in the same direction, creating a strong and permanent magnetic field. This alignment can be disrupted by heat or external magnetic fields, causing the material to lose its magnetism.

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