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Iron, cobalt and nickel are known to show magnetic properties.
Electromagnets are non permanent magnets. They got magnetic field because of applied electric field. They lost their magnetic field which was around that, when the applied electric field is stopped. permanent magnets have magnetic property always with it. Permanent magnetic property loses when we heat the material. It cannot be regained once again. But electromagnets are capable of regaining its magnetic properties.
A Magnetic Force
(n.) a magnet that retains its magnetism after being removed from an external magnetic field
w What are electric and magnetic properties of particle?
That's a "permanent" magnet.
Ferrite and Magnetite bot have magnetic properties.
Ferrite and Magnetite bot have magnetic properties.
Ferrite and Magnetite bot have magnetic properties.
Iron, cobalt and nickel are known to show magnetic properties.
Rhenium is paramagnetic. Paramagnetic materials have a small, positive susceptibility to magnetic fields. These materials are slightly attracted by a magnetic field and the material does not retain the magnetic properties when the external field is removed.
Many materials which are capable of being effected by a magnetic field will retain some of those properties once its no longer in direct contact with the field. One example is iron. It can become magnetized by being introduced to a magnetic field and then continue to remain magnetic once the source field is removed.
Electromagnetic waves are transverse (unpolarized or polarized) or circularly polarized waves that have some electrical properties and some magnetic properties. An electromagnetic wave consists of changing electric and magnetic fields. The repeated cyclic transfer of energy from the electric field (weakening it) to the magnetic field (strengthening it) until the electric field is gone, then from the magnetic field (weakening it) to the electric field (strengthening it) until the magnetic field is gone every cycle is the process by which electromagnetic waves propagate without requiring a medium (and is described in Maxwell's Equations).
In certain circumstances, yes. Oxygen is paramagnetic, so it is possible to induce a magnetic moment in it by exposing it to an external magnetic field. So basically, liquid oxygen only exhibits its magnetic properties in the presence of a magnetic field.
Electromagnetic waves are transverse (unpolarized or polarized) or circularly polarized waves that have some electrical properties and some magnetic properties. An electromagnetic wave consists of changing electric and magnetic fields. The repeated cyclic transfer of energy from the electric field (weakening it) to the magnetic field (strengthening it) until the electric field is gone, then from the magnetic field (weakening it) to the electric field (strengthening it) until the magnetic field is gone every cycle is the process by which electromagnetic waves propagate without requiring a medium (and is described in Maxwell's Equations).
no
Because the intrinsic magnetic field generated by the spin of the electrons around the nucleus is negligible...