∆ How Exactly Do Magnets Work? ∆
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i was also used to wonder that y ..it acts like that what creates this what are the atomic structures inside the magnet results in it...but i searched on google and youtube then fond the answer .
Large-scale magnetism, like the kind observed in bar magnets, results from magnetic fields that naturally radiate from the electrically charged particles that make up atoms, said Jearl Walker, a physics professor at Cleveland State University and coauthor of "Fundamentals of Physics" (Wiley, 2007). The most common magnetic fields come from negatively charged particles called
electrons .
Normally, in any sample of matter, the magnetic fields of electrons point in different directions, canceling each other out. But when the fields all align in the same direction, like in magnetic metals, an object generates a net magnetic field,
Large-scale magnetism, like the kind observed in bar magnets, results from magnetic fields that naturally radiate from the electrically charged particles that make up atoms, said Jearl Walker, a physics professor at Cleveland State University and coauthor of "Fundamentals of Physics" (Wiley, 2007). The most common magnetic fields come from negatively charged particles called
electrons .
Normally, in any sample of matter, the magnetic fields of electrons point in different directions, canceling each other out. But when the fields all align in the same direction, like in magnetic metals, an object generates a net magnetic field,
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Answer:
The force of attraction of the magnet is the strongest near the two ends of the bar magnet. The two ends of the bar magnet are called Poles of the magnet. The regions of a magnet where the attraction of magnet is the strongest are called poles of the magnet. The two poles of a magnet are near its free ends.
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