What are the properties of magnets that allow them to attract and repel each other? Well, it seems that the answer is actually pretty simple. You see, when you are trying to figure out how do magnets repel each other, it is important for you to know the basic principles of attraction and repulsion. The first rule of attraction states that whatever attracts will also be attracted to what repels. Now, we can put it a little bit differently by saying that whatever attracts will attract something else.
Now, this principle is really important because it is what allows us to create such a great array of objects that use magnets in their design. For example, many types of clothing are created using magnets to help with attracting the right shape and size into the garment. You’ll find these shapes and sizes all over your closet, but in order for them to stay in place, they need to attract the magnetic force that surrounds them. In a similar way, you’ll also find magnets used on the tops and bottoms of many different items. This is due to the fact that these items need to be attracted and repelled in the same direction in order to remain in place. In this case, the magnets have a tendency to attract each other, while the clothes need to have the opposite magnetic force in order to be repelled.
You will also find that the properties of magnets repel each other if you think about the fact that magnetic force attracts a magnet the more it is attracted. So, in theory, magnets will have a tendency to stick together. This is why most magnets actually look like a magnet when they are spinning. Also, the magnets that do stick together will be those that have strong magnetic forces around them. When a magnet has a stronger attraction force around it, then this magnetic force can actually move things. For example, a refrigerator magnet can pull itself towards its own pole, while a motorcycle magnet will push itself against its own pole. If there is a strong magnet like this around a refrigerator, then it will actually repel each other, as the magnets work in opposite directions.