Not quite true. A ferromagnet with a large remanence makes a good permanent magnet. A ferromagnet with a small remanence (ie: a soft ferromagnet) does not make a good permanent magnet.StatMechGuy said:Ferromagnets are permanent magnets
Claude Bile said:Ferromagnets contain magnetic dipoles that 'influence' other dipoles around them, allowing them to align with one another. This property results in an enhanced magnetic response, as there is a reduced random variation in dipole orientation.
Claude.
In a paramagnet, the magnetization (M) is can be given as M=\chi H whereultimateguy said:I'm doing a presentation on magnetic hysteresis, and I have a feeling one of the profs will ask me what is the difference between a ferromagnet and a paramagnet. I haven't taken my 3rd year E&M class yet, so I would just like to know what I should answer.
Ferromagnets have a strong spontaneous magnetization that does not disappear even in the absence of an external magnetic field, while paramagnets only show magnetization in the presence of an external magnetic field.
Ferromagnets have a high magnetic susceptibility, meaning they can easily be magnetized and retain their magnetization even after the external magnetic field is removed. Paramagnets, on the other hand, have a low magnetic susceptibility and their magnetization disappears when the external magnetic field is removed.
A common example of a ferromagnet is iron, while a common example of a paramagnet is aluminum. Other examples of ferromagnets include cobalt and nickel, while paramagnets include copper and gold.
Ferromagnets have a Curie temperature, above which they lose their ferromagnetic properties and become paramagnetic. On the other hand, paramagnets become more strongly paramagnetic as the temperature decreases.
The difference is caused by the alignment of electron spins within the materials. In ferromagnets, the electron spins are aligned in the same direction, creating a strong magnetic field. In paramagnets, the electron spins are randomly oriented, resulting in a weak magnetic field.