A "Neodymium magnet or Super Magnet".
Not all materials can be made into magnets because they do not have magnetic domains, which are groups of atoms that act like tiny magnets. For a material to be magnetic, its magnetic domains must be aligned in the same direction. Materials like iron, nickel, and cobalt have this property, but others, like wood or plastic, do not.
Graphite can act as a permanant magnet at room temparature. Though we say that magnets attract only iron, nickel and cobalt a sufficiently powerful magnet and graphite can be attracted to each other. To understand this better take a relatively powerful magnet, bring it near an ordinary graphite pencil and observe. If that does not work, try taking out the lead of the pencil and repeat the process
not always as the south pole of a magnet is magnetic yet it repels another south pole. :D
Each piece will act as its own magnet with its own north and south poles. The magnetic properties will be distributed among the four smaller magnets, with each retaining the ability to attract and repel other magnets.
The ionosphere layer of the atmosphere acts like a giant magnet. This layer contains charged particles that interact with the Earth's magnetic field, causing phenomena like the auroras. Additionally, the magnetosphere, which extends beyond the ionosphere, also plays a role in trapping charged particles from the solar wind.
Ferromagnetism
Ionic.
Magnetic forces act between objects that have a magnetic field, such as between two magnets or between a magnet and magnetic material like iron. The forces are strongest at the poles of the magnets and decrease with distance.
Electric currents ... especially in coils.
The atoms in iron are little groups that act like tiny magnets also found in nickel and cobalt!
Magnets attract magnetic materials like iron, nickel, and cobalt. Electromagnets, on the other hand, can attract or repel any material that responds to a magnetic field, as they can be turned on/off by controlling the electric current flowing through them.
Electrons behave like tiny magnets because they have a property known as spin. This spin generates a magnetic field around the electron, giving it magnetic properties. When electrons are in motion, their spin causes them to act like small magnets, aligning with an external magnetic field.
synthesized from materials that, when combined, act like rubber but don't have the same molecular structure
Some metals like iron, nickel, and cobalt can act as permanent magnets because their atoms have unpaired electrons that align in the same direction, creating a magnetic field. When these materials are magnetized, the aligned magnetic domains remain in place even after the external magnetic field is removed, resulting in a permanent magnet.
Opposites attract but this seems the total opposite
The force you are referring to is the force of magnetism, which can act at a distance and pull iron objects. This force is generated by magnets or magnetic materials and is responsible for the attraction between magnets and iron objects.
Water molecules act like little magnets because they are polar molecules, with a slightly positive charge on the hydrogen atoms and a slightly negative charge on the oxygen atom. This polarity allows water molecules to attract each other, forming hydrogen bonds which gives water its unique properties like surface tension and cohesion.