Copper is not a magnetic material and does not magnetize easily.
To magnetize a needle, you can rub it against a magnet in the same direction multiple times. This will align the magnetic domains in the needle and make it magnetic.
To magnetize iron, you can rub a magnet along the iron in one direction multiple times. This will align the magnetic domains in the iron, making it magnetic.
To magnetize metal, you can rub a magnet along the metal in one direction multiple times. This will align the magnetic domains in the metal, making it magnetic.
To magnetize an object, you can rub it with a magnet in the same direction multiple times. This aligns the magnetic domains within the object, creating a magnetic field.
To magnetize something, you can rub a magnet along the object in the same direction multiple times. This will align the magnetic domains within the material, making it magnetic.
You can magnetize a paper clip by passing it repeatedly over a large magnet.
magnetize
There is no scientific evidence to support the claim that magnets can magnetize water. Magnets can interact with water molecules, but they do not magnetize or make water magnetic.
Some metals are naturally paramagnetic, meaing that you can induce a magnet field on it but only with a very strong magnet. To actually magnetize the metal itself without a magnet, you would have to make an induced magnet by wrapping the metal around a copper wire and sending electricity through it. It all has to do with the arrangement of the electrons within the metal.
No its not a metal.
magnetize
No. There is no metal in a diamond to magnetize.
duct tape a magnet to it.
pee on it
To magnetize a needle, you can rub it against a magnet in the same direction multiple times. This will align the magnetic domains in the needle and make it magnetic.
Whenever I get a new screwdriver, I always magnetize it right away. It is wikdely rumored that a potent electrical charge can magnetize certain metals.
To magnetize iron, you can rub a magnet along the iron in one direction multiple times. This will align the magnetic domains in the iron, making it magnetic.