you answer
If the magnets are attracting each other, they will pull together. If they are repelling each other, they will push apart.
The two magnets that push and pull in a motor are the stator magnet and the rotor magnet. The stator magnet is stationary and creates a magnetic field, while the rotor magnet is attached to the spinning rotor and interacts with the stator magnet to generate rotary motion.
Magnets create a magnetic field around them which exerts a force on other magnets within that field. This force is generated by the alignment of the magnetic domains within the magnets, causing them to attract or repel each other without touching.
In a motor, the two magnets that push and pull against each other are the stator (the fixed magnet) and the rotor (the rotating magnet). The interaction between these two magnets creates the magnetic force necessary to drive the motor's rotation.
Force can be either a push or a pull. When you push a door open or pull a rope, you are applying a force in that direction.
A magnetic field surrounds each magnet, and affects other magnets. That is correct, AND we know the other two are not possible candidates!
Magnetic Repulsion
Magnetic
The force of magnetism.
You could use magnets to push things like another magnet or you could pull metal things to it.
Magnets and relationships both involve attraction and repulsion. Just as magnets can pull together or push apart depending on their alignment, relationships can experience moments of closeness and distance. Additionally, both magnets and relationships require effort and attention to maintain their strength and connection.
When two magnets pull apart or push together, it is called magnetic attraction or repulsion. Magnetism results from the force between charged particles in magnetic materials.
If the magnets are attracting each other, they will pull together. If they are repelling each other, they will push apart.
The pull of a magnet is usually stronger than its push. This is because the magnetic force is generated by the alignment of magnetized atoms within the material, resulting in a stronger attraction (pull) between magnets compared to the repulsion (push) force.
The two magnets that push and pull in a motor are the stator magnet and the rotor magnet. The stator magnet is stationary and creates a magnetic field, while the rotor magnet is attached to the spinning rotor and interacts with the stator magnet to generate rotary motion.
The push-pull machine uses a system of weights and pulleys to create resistance when you push or pull against it. The weights provide the resistance that your muscles have to work against, helping to build strength and muscle mass.
push= using ur weight against gravity/forcing weight agaisnt gravity pull=using strength to pull with/against gravity (sorry my answer isn't that great and scientific!)