They push away (repel). unlike when north and south are put together
Like poles repel; opposite poles attract.
You push them together. They won't stay together, though, since the repulsive force will continue acting. OR, use a nutural \ sympathetic strata ... a simple example is use a metal that attracts the magnetic poles ... and they will unite! N --> |Metal| <-- N
Like magnetic poles repel one another.
A Magnet attracts or repels other Magnets, depending on their mutual orientation of North and South Poles. When placing like Poles of two Magnets together, the Magnets repel each other,
Jupiter's rapid rotation rate causes its equator to bulge out and its poles to be flattened. It looks a bit like a squashed ball; the planet is seven percent larger at the equator than at the poles.
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. Like charges repel, and unlike charges attract.
when the magnets repel they have the same poles facing each other. Like if you hold two north side pole together they will repel.
The two like poles will repel each other, and you'll need to push them to come together. The two unlike poles will attract each other, and you'll need to hold them to keep them apart.
Like poles repel; opposite poles attract.
Magnetic levitation.
You push them together. They won't stay together, though, since the repulsive force will continue acting. OR, use a nutural \ sympathetic strata ... a simple example is use a metal that attracts the magnetic poles ... and they will unite! N --> |Metal| <-- N
they attract each other and stick together
Ever try to get two like poles of a magnet to stay together? They won't, that's magnetic levitation. To get things to move you switch the poles very rapidly.
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. Like charges repel, and unlike charges attract.
Like magnetic poles repel one another.
"Hold on...did you say like charges repel and unlike charges attract?" Yes, but this is really due to a different force, the electromagnetic force, which we will talk about at a different door. Even so, we will introduce this by an example. Hopefully you'll be familiar with this example. Have you ever put two magnets together and instead of coming together, they had to be pushed together? Magnets are composed of north poles and south poles. One can think of a north pole as being a positive charge and a south pole as a negative charge. North poles attract south poles like positive charges attract negative charges. Furthermore, like poles repel as like charges repel. But, there is a difference; you can never get a magnet with just a north pole or just a south pole. Even if the magnet is broken up into many tiny pieces, EVERY piece will have a north pole and a south pole. When two like poles are pushed together, they usually flip over so that the north pole and south pole come together. Now you have observed two facts at the same time; like poles repel (like "charges" repel) and unlike poles (unlike "charges") attract. Go ahead, take a bite out this new knowledge and experiment yourself. Try playing with the repelling and attracting properties of poles ("charges") with some magnets!
Magnets are works on the same principle as how charge particles acts. If two like particles comes together, they will apply repulsion force to get away from each other. Meanwhile if two particle with different charge come together comes together they will attract each other (lovers). The same way if we put two like poles of a magnetics together they will repel each other but like poles will attract each other.