An electromagnet. Anytime electrical current flows through a conductor, a magnetic field is produced.
No. Electromagnetism is possible only in a current carring conductor
If the battery has an iron-like casing, then yes.
No.
No
You can supercharge a magnet by coiling a metal wire around a magnet then hooking both ends of the wire to a battery. Make sure the wire can conduct electricity and the more coils around the magnet, the better.
magnet attracts iron. paper clip made of iron magnet atrracts paper clip...
An electromagnet can be made stronger by: - A bigger iron rod. - A bigger battery/more batteries - More coils around the iron rod. - A bigger magnet. - Increase the current flowing through the coil. - Put in a soft iron core.
an iron nail, a long peice of wire, a large battery or a transformer
A horseshoe magnet has a North pole one one of the feet and a south pole on the other. A magnet made of flexible material would collapse on itself as the two poles attract.
They have a battery that battery has magnet
battery and a magnet because the ions in a magnet have to be in order for it to be a magnet
The reason is because an electromagnet is hooked up to an artificial energy force, while a magnet is a charged piece of metal example: a battery hooked up to a piece of iron attracts paperclips but a magnet can be made by stroking a paperclip against a bar magnet to create a temporary magnet somewhat how a compass works
Yes, but be sure to replace them before the backup battery runs out.
No, a magnet will not affect a battery.
no it can not .it is because a magnetic meterial can made in to magnet
None of the sides should be more attracted to a magnet than the other.
To Make An Electo-Magnet you need to saughter 2 wires , A Battery And a switch to ther magnet , i dont really know i saw it on youtube...
To Make An Electo-Magnet you need to saughter 2 wires , A Battery And a switch to ther magnet , i dont really know i saw it on YouTube...
a temporary magnet!
A electro magnet is used for lifting things by the magnetic force provided by the amount of coils and the size of the battery
A magnet produced in earth; not man made.