What is the attraction or repulsion between magnets?
When two opposite magnetic poles are close, they attract each other. When like poles are pushed together, there is a force of repulsion. The rule for magnets is that like poles repel and unlike poles attract.
How do two magnets interact with each other?
The two magnetic forces are interacting! All magnets have a north-seeking pole, and a south-seeking pole. … The new magnet may attract or repel the suspended magnet. When opposite poles of the magnets approach, they attract each other.
What is repulsion and attraction?
Repulsion is a force between two similar or like charges, while Attraction is a force between two dissimilar or unlike charges. … Example: The force between two electrons (negative charge), while In attraction, the two charges of dissimilar nature are pulling toward each other.
What does it mean to attract two magnets?
When two magnets are brought together, the opposite poles will attract one another, but the like poles will repel one another. This is similar to electric charges. … The earth is like a giant magnet, but unlike two free hanging magnets, the north pole of a magnet is attracted to the north pole of the earth.
How does magnetic repulsion work?
A Magnet’s Repelling Force
Opposites attract. To explain why magnets repel each other, a north end of a magnetic will be attracted to the south of another magnetic. The north and north ends of two magnets as well as the south and south ends of two magnets will repel one another.
What happens when the materials were placed near the magnet?
Answer: 1) When two magnets are brought near each other, like poles repel; opposite poles attract. 2) When a magnet is brought near a piece of iron, the iron also gets attracted to the magnet, and it acquires the same ability to attract other pieces of iron.
How will you describe the magnetic field lines far from the magnet?
If you place a compass near the north pole of a magnet, the north pole of the compass needle will be repelled and point away from the magnet. Thus, the magnetic field lines point away from the north pole of a magnet and toward its south pole.