in scho l we made an electromagnet in science... well hooked in up to i think 2 d size batteries for power... well i was wondering what would happen if i plugged it into a wall outlet sounds like a bad idea just hearing it but i have to know
Walloutlet is AC, so it might be; A varying magnetic flux along with a varying current of the AC source... Be sure to step-down first the AC from the walloutlet by a transformer (may be step it down to 24V AC) b'cause 220V is really.... outrageous!
in scho l we made an electromagnet in science... well hooked in up to i think 2 d size batteries for power... well i was wondering what would happen if i plugged it into a wall outlet sounds like a bad idea just hearing it but i have to know
Don't just stick it in the wall socket like that, bad idea! Within a second it will get so hot it just melts onto the wall socket. AC wouldn't do much for a electro magnet, it needs to be DC. Use large size wall adapter, say, 12V at 3A or so and experiment like that... safely!
JoeTB, are you still alive. I hope you didn't rectify the mains voltage. Instead go shopping for an old electromechanical doorbell and a 6 volt battery (large battery with two springs on top). Once you make it home (Statistical, getting somwhere by car is more dangerous then working with wall outlets) you can try removing the coil from the doorbell and connected it to a 6 volt battery.
Normally, when you connect that coil into 220V DC or AC it will heat up then burn in a very short time.
Let's assume that it wouldn't heat up and burn. If its temperature stays constant, then its resistance will be constant too.
Then the current on the coil will increase 220/6 ≈ 37 times. According to the Biot-Savart rule, the magnetic field a coil produces is proportional to the current on it.
So the force our coil applies to other ferromagnetic materials will increase by 37 times.