Magnets are typically made of materials that are magnetic, such as iron, nickel, and cobalt. Materials that are not magnetic, such as wood, plastic, and glass, are not found in magnets.
If the other material is magnetized, then yes.
No, stacking magnets does not increase their strength. The strength of a magnet is determined by its material and size, not by stacking multiple magnets together.
No, stacking magnets does not make them stronger. Magnets have a set strength based on their material and size, and stacking them does not increase this strength.
Lead is not typically used in magnets. Magnets are usually made from materials such as iron, nickel, and cobalt. Lead is not a magnetic material and is not commonly used in the production of 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.
Nickel
no.!
No, there are no magnets in animals.
Industrial strength magnets are used widely for lifting, work holders,and chucks.
magnets steal
If the other material is magnetized, then yes.
in rocks
19988
it's attracted to magnets.
No, stacking magnets does not increase their strength. The strength of a magnet is determined by its material and size, not by stacking multiple magnets together.
No, stacking magnets does not make them stronger. Magnets have a set strength based on their material and size, and stacking them does not increase this strength.
Lead is not typically used in magnets. Magnets are usually made from materials such as iron, nickel, and cobalt. Lead is not a magnetic material and is not commonly used in the production of magnets.