I'm stuck on you.
im stuck on you hahaha
it can be if u magnitize it by rubing a magnet in one way on the paperclip.
A temporary magnet.
Magnetism is a form of Electric in its own Kinetic way. Metals a forced with electricity to create the magnetic field. For instance, find a fairly strong magnet, one that can say, pick up a set of keys, then rub this for about 3 to 5 minutes against a magnet, specifically on either the negative or positive side, whichever it is attracted to. Then after you've rubber it, your paperclip should have a magnetic field around it, try sticking this to another paperclip, it should be magnetic. Its because you have transferred the electronic energy from the magnet to the paperclip by using the magnetic field.
Household items: paperclip scissors knife another magnet steel fridge (not)
A paperclip attracts a magnet ,a magnet attracts a paperclip.
im stuck on you hahaha
you put the magnet by the paperclip and it goes up
"I'm rather attracted to you."
Unfortunately this question needs more detail to answer. Are you asking about how far apart a magnet and a paperclip are if they're touching (# of atoms), or how far apart the magnet at my house is from the paperclip in china, or how far apart a magnet has to be from a paperclip before it starts to create a pull (even this would need more details, what size of magnet, what strength, what size of paperclip)?
it can be if u magnitize it by rubing a magnet in one way on the paperclip.
A temporary magnet.
However, if you bring a magnet near a piece of iron, such as a nail,and the paperclip. If the paperclip does not fall then the magnetic field has the iron nail. The result is a temporary magnet called an 'electromagnet'. The magnets either stick together or are suspended in midair
Magnetism
Magnet.
A magnet made from a steel paperclip is most likely a(n) temporary magnet.
The temporary magnet becomes a magnet in a strong magnetic field, but its magnetic properties will disappear when that field is taken away. The ferromagnet and the permanent magnet are essentially the same thing. The electromagnet isn't that easy to make compared to the temporary magnet. Let's conduct an esperiment. If we take a bar magnet and pick up a paperclip with it, we can use the paperclip on the end of the magnet to pick up another paperclip. The second paperclip we are picking up only needs to touch the first paperclip; it does not have to touch the magnet itself. When the magnet is taken away, the paperclips no longer exhibit magnetic properties. They were acting as temporary magnets, and the simple and easy removal of the magnet cause them to lose their magnetism.