Yes, when you push repelling magnets together, there is potential energy stored in the system due to the work done to compress the magnetic field. This potential energy is stored in the magnetic field surrounding the magnets. When you release the magnets, this stored energy is converted back to kinetic energy as the magnets repel each other.
If the magnets are attracting each other, they will pull together. If they are repelling each other, they will push apart.
Magnets work due to the alignment of the magnetic domains within the material. These domains consist of tiny atomic magnets that align in the same direction, creating a magnetic field. When two magnets are brought close together, their magnetic fields interact, either attracting or repelling each other based on the alignment of their domains. This attraction or repulsion is what causes magnets to stick together or push apart.
When two opposite poles of magnets are brought together (north and south), they attract each other and stick together. This is due to the magnetic field lines aligning and creating a force of attraction between the magnets.
Yes, magnets can repel certain types of metal, specifically those that are ferromagnetic. When two magnets with like poles facing each other are brought close, they will exert a repelling force on each other. This repelling force can also act on certain metals, causing them to be repelled by the magnet.
When opposite magnets are brought close together, they attract each other and pull towards one another. This is because opposite poles of magnets (north and south) are attracted to each other due to their magnetic fields.
If the magnets are attracting each other, they will pull together. If they are repelling each other, they will push apart.
You can observe them attracting or repelling each other.
No. The north sides of two magnets do not stick together because they have the same polarity. The north and south sides of a magnet, however, do stick together because they are on opposite poles and, pertaining to magnets, opposites attract. actually if you push two repelling magnets together so they touch they will stick, without flipping, not entirely sure why they don't repel but it seems that the magnetic fields somehow overlap, so that within the repelling field there is a small of the attracting field, i know this isn't true of the attracting side because the magnets stick together regardless, but on the repelling side when they touch they will stick
Yes. Just ensure the the like poles are facing each other. Like poles repel.The two magnets that are attracting are effectively one magnet.It would look like this:-([-magnet 1+]first pair attracting[-magnet 2+])++(+[magnet 1-]second pair repelling[-magnet 2+])+
i dontd think so
The north sides of two magnets do not stick together because they have the same polarity. The north and south sides of a Does_north_stick_to_north_for_magnets, however, do stick together because they are on opposite poles and, pertaining to magnets, opposites attract.actually if you push two repelling magnets together so they touch they will stick, without flipping, not entirely sure why they don't repel but it seems that the magnetic fields somehow overlap, so that within the repelling field there is a small of the attracting field, i know this isn't true of the attracting side because the magnets stick together regardless, but on the repelling side when they touch they will stick It doesn't. A magnet's North will attract another magnet's South and vice versa
electromagnetism is a cumulative force
if you are using magnets, they stick together.
The strength of repelling and attracting magnets depends on various factors such as their size, shape, and distance between them. In general, repelling magnets can exhibit strong forces due to the energy required to overcome their natural inclination to repel. However, the strength of attracting magnets can also be powerful depending on the magnetic properties of the materials involved.
Two magnets may not stick together if their poles are aligned in opposite directions (north to south or south to north), causing them to repel each other due to the magnetic force. The magnetic force works in a way that like poles repel each other and opposite poles attract each other.
Magnets work due to the alignment of the magnetic domains within the material. These domains consist of tiny atomic magnets that align in the same direction, creating a magnetic field. When two magnets are brought close together, their magnetic fields interact, either attracting or repelling each other based on the alignment of their domains. This attraction or repulsion is what causes magnets to stick together or push apart.
neither. they separate because of magnetic fields. its not kinetic. its not potential. If you hold them together.. the "push" of them trying to get apart is storing some potential energy.. kind of like a spring. I guess you'd call it elastic potential energy because i dont know if there is such a thing as magnetic potential energy... hmm..