How Do Molecular Magnetic Moments Cause Magnetism in Dielectric Crystals?

In summary, magnetism dielectric crystals are materials that possess both magnetic and dielectric properties, allowing them to be magnetized and store/release electrical energy. They work by aligning magnetic dipoles in their crystalline structure and have practical applications in electronics, data storage, and medical imaging. Examples include ferrite, garnet, and tourmaline. They differ from regular crystals in their ability to generate and store magnetic energy and have unique structures and compositions.
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What is origin of magnetism in dielectric crystals?
 
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molecular magnetic moment cause the magnetism.
 

FAQ: How Do Molecular Magnetic Moments Cause Magnetism in Dielectric Crystals?

What are magnetism dielectric crystals?

Magnetism dielectric crystals are materials that have both magnetic and dielectric properties, meaning they can be magnetized and also have the ability to store and release electrical energy.

How do magnetism dielectric crystals work?

Magnetism dielectric crystals work by having a crystalline structure that allows for the alignment of magnetic dipoles, creating a magnetic field. At the same time, the crystal's dielectric properties allow for the storage and release of electric charge.

What are some examples of magnetism dielectric crystals?

Some examples of magnetism dielectric crystals include ferrite, garnet, and tourmaline.

What are the practical applications of magnetism dielectric crystals?

Magnetism dielectric crystals have various practical applications, such as in the production of electronic devices, data storage, and medical imaging.

How are magnetism dielectric crystals different from regular crystals?

Magnetism dielectric crystals have an additional property of being able to generate and store magnetic energy, while regular crystals do not possess this property. They also have different structures and compositions that allow for their unique properties.

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