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Magnets always produce an electromagnetic force- between the similar ends of magnets it is electromagnetic repulsion.
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 force that pushes two magnets apart is called the magnetic repulsion force. This force arises from the interactions between the magnetic fields produced by the magnets, causing them to push away from each other.
You now have 2 bar magnets, each with half the magnetic force of the original.
The force between two magnets is called magnetic force.
When magnets are pulled apart, they experience a force that opposes their separation. This force is known as magnetic attraction. The strength of this force depends on the distance between the magnets and the properties of the magnets.
The force between two magnets is a non-contact force known as a magnetic force. It can act at a distance without the need for physical contact between the magnets.
The force between two magnets is primarily dependent on the strength of the magnets' magnetic fields, the distance between the magnets, and the orientation of the magnets. In general, the force increases with stronger magnetic fields and decreases with greater distance. The force is also influenced by the alignment of the magnetic poles.
The force exerted by magnets when they attract or repel each other is called magnetic force. This force is caused by the interaction of magnetic fields between the magnets.
Magnets always produce an electromagnetic force- between the similar ends of magnets it is electromagnetic repulsion.
The distance between the magnets: The force of magnets decreases as the distance between them increases. The size or strength of the magnets: Stronger magnets will have a larger magnetic force between them. The orientation of the magnets: The force between magnets is strongest when their poles are aligned and weakest when they are opposite. The magnetic properties of the materials: Different materials have varying magnetic permeabilities, affecting the strength of the magnetic force.
The law that determines the magnitude of the force between two magnets is known as the magnetic force law, which states that the force between two magnets is directly proportional to the product of their magnetic pole strengths and inversely proportional to the square of the distance between them.