Why moving charges create tiny magnetic field?

In summary, the magnets have magnetic property because of moving electrons which are acting like tiny magnets, and that tiny magnets are put in order so they act like one magnet. As for the question of how the magnetic field forces electrons to move and produce current, at the classical level, we simply postulate Maxwell's Equations and the Lorentz force law. In quantum electrodynamics, we use a quantized field to describe the interaction between charged particles, but the ultimate explanation for why the universe has a local U(1) gauge symmetry is still unknown.
  • #1
stmartin
73
0
Dear users/moderators/administrators,

I have been doing research about this question's answer. The magnets have magnetic property because of moving electrons which are acting like tiny magnets, and that tiny magnets are put in order so they act like one magnet. Why it is like that?

Thank you.


stmartin.
 
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  • #3
ranger said:
You seem be asking two questions here:
1) Why moving charges create magnetic field? (title)
2) And how materials have magnetic properties.

1)https://www.physicsforums.com/showthread.php?t=175438
2)http://hyperphysics.phy-astr.gsu.edu/hbase/solids/ferro.html#c4
No, the second not, only the first. But maybe I have one more question. How does the magnetic field "forces" the electrons to move in coil with closed circular loop (electromagnetism) and produce current?
 
  • #4
You could very well ask the same questions about the electric field: why do charges have an electric field associated with them, and how does the electric field force another charge to move?

In classical electrodynamics, we describe the "production" of electric and magnetic fields by charges and currents, using Maxell's Equations. We describe the electric and magnetic forces exerted by the fields, using the Lorentz force law. At the classical level, we don't have a deeper "explanation" for Maxwell's Equations and the Lorentz force law, as far as I know. We simply postulate them.

In quantum electrodynamics (QED), we describe the interaction between charged particles by using a quantized field, whose quanta we call "photons." In principle at least, for large classical-type systems, this description should reduce to classical electrodynamics. The QED interaction is the way it is, apparently because the universe has a local U(1) gauge symmetry.

As far as I know, that's where the chain of explanations ends at the moment. I don't think there's any generally agreed-on answer to "why does the universe have a local U(1) gauge symmetry?" Maybe string theory or some other theory at that level will give us an answer someday.
 

1. What is the relationship between moving charges and magnetic fields?

Moving charges create tiny magnetic fields because they have an intrinsic property called spin, which is the source of magnetism. As the charges move, their spin causes them to align and create a magnetic field around them.

2. How does the direction of the magnetic field depend on the direction of the moving charges?

The direction of the magnetic field created by moving charges is always perpendicular to the direction of the charges' motion. This means that if the charges are moving in a straight line, the magnetic field will form circles around the path of the charges.

3. Why do only moving charges create magnetic fields?

Only moving charges create magnetic fields because, as mentioned earlier, they have an intrinsic property called spin. When charges are stationary, their spins cancel out and there is no net magnetic field. However, when the charges are in motion, their spins align and create a magnetic field.

4. How do the strength and size of the magnetic field depend on the speed of the moving charges?

The strength and size of the magnetic field created by moving charges depend on the speed of the charges. The faster the charges move, the stronger and larger the magnetic field will be. This is because faster-moving charges have a higher spin rate, resulting in a stronger alignment and larger field.

5. Can the magnetic field created by moving charges be controlled or manipulated?

Yes, the magnetic field created by moving charges can be controlled and manipulated by changing the speed, direction, or arrangement of the charges. This is the basis for technologies such as electromagnets, which use moving charges to create powerful magnetic fields that can be turned on and off.

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