How does the magnetic force exerted by a magnet change as the distance between two magnets increases?
Answer (3)
As the distance between two magnets increases, the force between them decreases .
If the force increased along with distance, then the magnet in your hand would reach out and grab every magnet in Australia or on Mars and pull it toward you.
The magnetic force between two magnets decreases as the distance between them increases, following the inverse square law. Doubling the distance reduces the force to one-fourth its original value.
As the distance between two magnets increases, the magnetic force they exert on each other decreases. This behavior is similar to the electrostatic force between two charged objects. According to the inverse square law, the magnitude of the magnetic force decreases proportionally to the square of the distance between the magnets. For example, if the distance between the magnets is doubled, the magnetic force reduces to one-fourth of its original strength.
The magnetic force between two magnets decreases as the distance between them increases, following an inverse square relationship. This means that if the distance doubles, the force becomes one fourth of its original strength. This concept is vital for understanding how magnets work in real-life applications.
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