Which description correctly defines ferromagnetic materials?

• A. Substances that can become magnetized; iron, nickel & cobalt. Their atoms will form magnetic domains.
• B. All electrons are paired; align perpendicularly to magnetic field lines, do not retain magnetic properties when the external magnetic field is removed
• C. Align parallel to magnetic field lines, and do not retain magnetization after removal
• D. Materials that have no interaction with magnetic fields

Answer: (A)

Ferromagnetic materials are substances that can become magnetized because their internal magnetic moments align within regions called magnetic domains. Classic examples are iron, nickel, and cobalt. In these materials, the moments inside each domain point in the same direction, so the domain itself behaves like a tiny magnet. When an external magnetic field is applied, more domains align with the field, increasing the overall magnetization, and after the field is removed, the material can retain magnetization due to the persistence of domain alignment. The description that says they can become magnetized and that their atoms form magnetic domains captures this behavior. The other descriptions describe materials that either don’t retain magnetization or don’t interact with magnetic fields in the same way, which does not describe ferromagnetism.