The magnetic fields between the north poles repel off each other
The force of attraction between the poles of two magnets is most greatly affected by the distance between the poles. As the distance decreases, the force of attraction increases, and vice versa. Additionally, the strength of the magnets themselves will also influence the force of attraction.
It is called Magnetism. You have probably learned about it in school
To create a permanent magnet energy must be supplied to suitable materiel by immersing it in a magnetic field normally supplied by an electromagnet
Unlike poles of magnets attract each other. The North pole of one magnet will attract the South pole of another magnet, and vice versa. This attraction is due to the magnetic field that surrounds each magnet.
The five properties of magnets are: Attraction and repulsion: Magnets can attract and repel other magnets or magnetic materials. Pole orientation: Magnets have two poles, north and south, that determine their orientation. Magnetic field: Magnets create a magnetic field around them that exerts a force on nearby objects. Retentivity: Magnets can retain their magnetic properties once magnetized. Induction: Magnets can induce magnetism in nearby materials without direct contact.
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.
magnetic force
The force of attraction between the poles of two magnets is most greatly affected by the distance between the poles. As the distance decreases, the force of attraction increases, and vice versa. Additionally, the strength of the magnets themselves will also influence the force of attraction.
Magnetism
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.
The greatest attraction between two magnets occurs when the opposite poles are facing each other. In other words, when a north pole is facing a south pole, the attraction will be maximized. Conversely, when the same poles are facing each other (north to north or south to south), the magnets will repel each other.
The greatest attraction between two magnets is achieved when their opposite poles (north and south) are facing each other. This alignment results in a strong magnetic field that pulls the magnets together.
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 magnetic force of attraction between two magnets decreases with distance. As the distance between the magnets increases, the strength of the magnetic force weakens. This relationship follows an inverse square law, meaning that the force decreases exponentially as the distance between the magnets increases.
The property you are referring to is magnetism, where there is a force of attraction or repulsion between unlike or like poles of magnets. Magnetism is caused by the alignment of the magnetic domains in the material.
Bar magnets interact with each other through magnetic forces. Like poles (north-north or south-south) repel each other, while opposite poles (north-south) attract. Factors influencing their magnetic attraction or repulsion include the strength of the magnets, the distance between them, and the orientation of their poles.
The force of attraction in an ionic bond is electrostatic and in this unlike charges attract and like charges repel. This is similar to magnetism where opposite poles attract and like poles repel. Both electrostatic and magnetic fields obey the inverse square law.