Metals that contain any of these:
Iron,
Nickel,
or Cobalt
No, quartz is not attracted to magnets because it is not a magnetic mineral. The magnetic properties of a material are determined by its atomic structure, and quartz does not have the necessary structure to be attracted to magnets.
it's attracted to magnets.
No, sulfur is not attracted to magnets because it is not a ferromagnetic material. Ferromagnetic materials, like iron, nickel, and cobalt, are attracted to magnets due to their unique atomic structure that allows them to align with magnetic fields.
No, paper is not typically attracted to magnets because it is not a magnetic material. Magnets only attract materials that contain iron, nickel, or cobalt.
No, sulfur is not attracted to magnets. Sulfur is a non-magnetic material, which means it does not have magnetic properties and will not be attracted to magnets.
Chromium is not attracted to magnets since it is a non-magnetic material. This is because chromium does not have unpaired electrons in its atomic structure, which are needed for a material to be attracted to a magnet.
ductile
No, ferromagnetic materials are strongly attracted to magnets due to their ability to become permanently magnetized. This attraction is a result of the alignment of magnetic domains within the material when exposed to a magnetic field.
Copper is not attracted to magnets because it is a non-magnetic material. The electrons in copper are arranged in such a way that they do not align in a manner that creates a magnetic field. This property makes copper unable to be magnetized or attracted to magnets.
Phosphorus is not a ferrous metal and cannot be attracted by magnet.
Metals and other magnets are the only objects that are attracted to magnets. However, many metals are NOT attracted to magnets. Copper, stainless steel, brass, gold, silver, zinc, and aluminum are a few metals that are NOT attracted to magnets. The best way to discover if the object will be attracted to a magnet is to introduce it to a magnet.
Vanadium is attracted to magnets i.e. it is ferromagnetic.