It would stick to the magnet....
The poles of a magnet. Labeled as north pole and south pole.
Draw some field lines. Use F=qvxB=IlxB to see how the 2 magnets interact.
That you have placed the magnet towards the northern pole of the unmarked magnet. Like poles retract while opposite poles attract
A magnet will deflect an electric current, the direction in which the force acts is a little complicated. in the presence of a magnetic field, current tries to move in a helical shape (like the shape of a spring).
When some pieces of plastics are brought near the magnet, they will get attracted.
vkgmbog nnkmbkmmdmmcklrmvkmaklmdfmbflksbmklwrmlmkblmrglkbmrwemblmblkgmpb
One method is to use a magnet. If the metal is iron, the magnet will be attracted.
You can put a magnet near the metal. If it gets attracted or repelled, then it is magnetised
If they are the same, they repel, if different, they attract.
yes Place the magnet near an iron ball and watch the ball accelerate toward the magnet.
The poles of a magnet. Labeled as north pole and south pole.
Draw some field lines. Use F=qvxB=IlxB to see how the 2 magnets interact.
Place your gold jewelry near a magnet. Real gold is not magnetic; if your jewelry pulls toward the magnet, it is fake.
That you have placed the magnet towards the northern pole of the unmarked magnet. Like poles retract while opposite poles attract
The compass needle is magnetic so if you place a magnet near the compass, the needle will change direction either attracting or reppeling.
creates magnetic force
the metal will sing a song