From the magnet.
Magnets exert a magnetic force on an iron rod, causing the iron to become magnetized and attract or repel other nearby magnetic objects. This force is a result of the alignment of the magnetic domains within the iron, creating a net magnetic field.
It means that there is a force that attracts each of two magnets towards the other one.It means that there is a force that attracts each of two magnets towards the other one.It means that there is a force that attracts each of two magnets towards the other one.It means that there is a force that attracts each of two magnets towards the other one.
Of course., they can.. What matters is how much is magnetic power (being more specific, electrically magnetic flux.). The attraction between two magnets is tremendously high with higher flux density magnets. (if you are more interested to know about, can browse for neodymium magnets!).
Yes a central magnet rotating with an array of magnetic material surrounding it spun at the relative speed so as not to defeat the magnetic field would create a centrifugal arrangement if that is the query.
Yes, all magnets have a magnetic field. When a material becomes magnetized, it creates a magnetic field around itself that attracts or repels other materials. This magnetic field is the reason why magnets can exert force on other magnets or magnetic materials.
because they love each other
Magnets exert a magnetic force on an iron rod, causing the iron to become magnetized and attract or repel other nearby magnetic objects. This force is a result of the alignment of the magnetic domains within the iron, creating a net magnetic field.
Magnets have magnetic fields that extend into the space around them. When two magnets are brought close together, these fields interact with each other, resulting in a force of attraction or repulsion between the magnets. This force occurs even when the magnets are not in direct contact with each other.
It means that there is a force that attracts each of two magnets towards the other one.It means that there is a force that attracts each of two magnets towards the other one.It means that there is a force that attracts each of two magnets towards the other one.It means that there is a force that attracts each of two magnets towards the other one.
Magnets are materials that can exert a force of attraction or repulsion on certain objects.Magnets can be strong or weak, depending on their internal arrangements.
A magnet exerts a magnetic force, which is the force of attraction or repulsion between magnets or magnetic materials. This force arises due to the alignment of the magnetic domains within the material, causing a magnetic field.
A magnet is considered polar because it has a north pole and a south pole that attract or repel each other. This polarity is what allows magnets to exert a force on other magnets or magnetic materials.
Of course., they can.. What matters is how much is magnetic power (being more specific, electrically magnetic flux.). The attraction between two magnets is tremendously high with higher flux density magnets. (if you are more interested to know about, can browse for neodymium 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.
Yes a central magnet rotating with an array of magnetic material surrounding it spun at the relative speed so as not to defeat the magnetic field would create a centrifugal arrangement if that is the query.
The objects with bigger masses exert more pulling force. However, even though all the matter around us exert a force, their masses are too small for them to exert a 'feelable' force. But yes, they do exert a force, but its negligible.
The force you exert towards yourself is called self-force or self-interaction force.