When magnets stick to each other, it demonstrates the principles of attraction and repulsion in physics. Magnets have opposite poles (north and south) that attract each other, causing them to stick together. However, like poles (north and north, or south and south) repel each other, causing the magnets to push away from each other. This behavior is due to the magnetic fields generated by the magnets interacting with each other.
The term for the attraction or repulsion between magnets is called magnetic force. This force is a result of the magnetic fields produced by the magnets interacting with each other.
magnetic force
The term for the attraction and repulsion between the poles of magnets is magnetic force. This force is responsible for the interaction between magnets as opposite poles attract each other and like poles repel each other.
The magnetic field between two magnets determines their attraction or repulsion. If the magnetic fields are aligned in the same direction, the magnets will attract each other. If the magnetic fields are aligned in opposite directions, the magnets will repel each other.
Magnetic attraction is the force that pulls two magnets together, while magnetic repulsion is the force that pushes two magnets apart. These phenomena arise from the alignment of magnetic domains within the magnets, which either reinforce each other (attraction) or oppose each other (repulsion). Magnetic attraction and repulsion follow the laws of magnetism and are essential for the functioning of many devices, such as electric motors and generators.
The term for the attraction or repulsion between magnets is called magnetic force. This force is a result of the magnetic fields produced by the magnets interacting with each other.
Magnetism
magnetic force
The term for the attraction and repulsion between the poles of magnets is magnetic force. This force is responsible for the interaction between magnets as opposite poles attract each other and like poles repel each other.
the pushing apart of magnets is known as repulsion as they are pushing away from each other. The opposite to this is attraction
The magnetic field between two magnets determines their attraction or repulsion. If the magnetic fields are aligned in the same direction, the magnets will attract each other. If the magnetic fields are aligned in opposite directions, the magnets will repel each other.
Magnetic attraction is the force that pulls two magnets together, while magnetic repulsion is the force that pushes two magnets apart. These phenomena arise from the alignment of magnetic domains within the magnets, which either reinforce each other (attraction) or oppose each other (repulsion). Magnetic attraction and repulsion follow the laws of magnetism and are essential for the functioning of many devices, such as electric motors and generators.
If you are referring to magnets, yes. Wood does not stop magnetic attraction or repulsion.
Malcolm McCaig has written: 'Attraction and repulsion' -- subject(s): Magnets
Yes, the shape of the magnets can affect the magnetic repulsion between them. Different shapes can influence the magnetic field distribution and how the magnetic forces interact with each other. For example, two magnets with a larger surface area in contact will experience stronger repulsion compared to two magnets with a smaller contact area.
Magnets that stick together demonstrate the principle of magnetic attraction by showing how opposite poles attract each other. When two magnets with opposite poles (north and south) come close together, they are pulled towards each other due to the magnetic force between them. This attraction is what causes the magnets to stick together.
The term is called "magnetic attraction" or "magnetic repulsion." It refers to the force between the poles of magnets where like poles repel each other and opposite poles attract each other.