Electric energy is carried by current, which is the flow of electrons, which are the negatively charged sub-particles of atoms. This transfer of electrons from one place to another powers our lights, phones, appliances and many other things we use every day. Another interesting phenomenon of flowing current is that it produces its own magnetic field. Electricity and magnetism are very closely linked in that all closed loop currents create their own magnetic fields, and magnetic fields acting upon closed loop circuits can produce current or even change current diction.
The wire will bend away from the poles of the magnet.
Electric currents always produce their own magnetic fields. The behavior and current can always be described by the right-hand rule. If you make the “thumbs-up” sign with your hand like this:
The current will flow in the direction the thumb is pointing, and the magnetic field direction will be described by the direction of the fingers.
This means when you change the direction of the current, you also change the direction of the magnetic field. Current flows from the negative end of a battery, through the wire, to the positive end of the battery. This can help you determine what the direction of the magnetic field will be.
Magnets, like the horseshoe magnet used in this exercise, have two poles, south and north. The phrase “opposites attract” applies to magnets; therefore north-south interactions stick together, and north-north and south-south interactions repel, or push away from each other. Because the magnetic field created by the electric current in the wire is changing directions around the wire, it will repel both poles of the magnet by bending away from the wire. Depending on which pole is up (a mark on your magnet might tell you which is north or south), the wire will bend away from the magnet or farther into the “U.”