Magnetic layers in a spherical magnet.

In summary, the conversation touches on the concept of spherical magnets and their magnetic properties. The discussion mentions Prince Rupert's Drop and its ability to withstand force due to cooling and contraction of glass molecules. There is also a mention of a proposed spherical magnet and its potential magnetic properties, as well as a comparison to Earth's layers and a reference to a "Halbach Sphere." Further clarification and a diagram are needed to fully understand and discuss the proposed magnet.
  • #1
michaelkorn
3
0
Correct me if I'm wrong about anything. I've browsed here many times, but this is my first post.

I was thinking about Prince Rupert's Drop (http://en.wikipedia.org/wiki/Prince_Rupert's_Drop) and I wondered about spherical magnets.
Prince Rupert's Drop is able to withstand high magnitudes of force because the insides cooling contracts pulling the glass molecules closer together.
My chem teacher, the science department chair, attributed magnetic properties by the arrangement layers in magnets. If layers were spherically arranged (like Earth's layers), would the spherical magnetic be magnetic? Would the core of the magnet, I'll call it South, cancel out the North pole or would the entire North pole be extra strong?

To clarify, a South pole of any magnet would attract to any point on this magnet's surface.
Thank you!
 
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  • #2
Ah, the old spherical magnet idea.

Imagine a flat sheet magnet with lines of magnetic field leaving the top (north) and traveling round the edges of the sheet to the bottom.

Now bend the sheet into a cylinder. The lines now pass from the outside to the inside through the ends.

Now close the ends slowly. The lines become constricted, passing through the closing hole Until just before the hole closes they are highly concentrated into a thin thread.

When the hole closes, the lines are finally cut and the magnetic field is extinguished.

The final result is a metal sphere with no magnetic field.
 
  • #3
What is the connection between Prince Rupert's Drop of glass and spherical magnets?

You have not given a clear description of your proposed spherical magnet. You say, "the arrangement layers in magnets. If layers were spherically arranged (like Earth's layers)...". Now, what does that mean? Can you please provide a diagram or a clearly written description of the proposed sphere? Only then will it be possible to attempt comments.

We already know that solid spheres can only be axially magnetized and it's field would look just like the Earth's magnetic field with a North pole and a South pole.

Is it possible your teacher is referring to a "Halbach Sphere"?

Cheers,
Bobbywhy
 

Related to Magnetic layers in a spherical magnet.

1. What is the purpose of magnetic layers in a spherical magnet?

Magnetic layers in a spherical magnet are used to enhance the magnet's strength and stability. They help to align the magnetic domains within the magnet, making it stronger and more resistant to demagnetization.

2. How many magnetic layers are typically found in a spherical magnet?

The number of magnetic layers in a spherical magnet can vary, but typically there are anywhere from 3 to 10 layers. This can depend on the size and strength of the magnet, as well as the manufacturing process.

3. How do magnetic layers affect the magnetic field of a spherical magnet?

The magnetic layers in a spherical magnet help to concentrate and direct the magnetic field, making it more potent and efficient. The layers also help to increase the overall strength of the magnetic field.

4. What materials are commonly used to create magnetic layers in a spherical magnet?

The most commonly used materials for magnetic layers in a spherical magnet are ferromagnetic materials, such as iron, nickel, and cobalt. These materials have high magnetic permeability, allowing them to be easily magnetized and demagnetized.

5. Can the number of magnetic layers be adjusted to change the strength of a spherical magnet?

Yes, the number of magnetic layers in a spherical magnet can be adjusted to change its strength. Adding more layers can increase the strength, while reducing the number of layers can decrease the strength. However, this also depends on the size and composition of the magnet.

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