the bar magnet will become stable whereever it is suspended on the north pole as north pole=earth's magnetic south pole
Move towards the U magnet so that the poles attach.
Each piece would become a separate magnet with its own two poles, just like the original bar magnet. Cutting a bar magnet does not eliminate its magnetic properties; each piece will still have a north and south pole.
In magnetism, two like poles will repel each other. Remember that opposites attract.
Place the magnet vertically on the equator, with the north end facing the North Pole.
Six. Every bar magnet has 2 poles. If a bar magnet is broken, each resultant piece will be a bar magnet in its own right.
It can be done with cotton or string if the magnet is not too heavy.
The type of force in a bar magnet suspended freely is magnetic force. The magnet aligns itself with the Earth's magnetic field, resulting in a net force acting on the magnet.
Move towards the U magnet so that the poles attach.
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A bar magnet suspended freely will align itself along the north-south direction due to Earth's magnetic field. This behavior occurs because the magnet tries to minimize its potential energy by aligning with the magnetic field.
Each piece would become a separate magnet with its own two poles, just like the original bar magnet. Cutting a bar magnet does not eliminate its magnetic properties; each piece will still have a north and south pole.
In magnetism, two like poles will repel each other. Remember that opposites attract.
They are bar magnet ,horse shoe magnet ,lime stone magnet.
Each half will become its own magnet with its own north and south poles. The resulting magnets will have a weaker magnetic field compared to the original bar magnet, as some of the magnetic domain alignment will be disrupted during the cutting process.
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When you dip a bar magnet into a pile of pins, the magnetic field of the bar magnet induces magnetism in the pins, causing them to become temporarily magnetized. As a result, the pins are attracted to the magnet and will stick to it. This phenomenon occurs because the magnetic domains within the pins align with the magnetic field of the bar magnet, allowing them to respond to the magnetic force. Once removed from the magnet, most pins will lose their magnetism and return to their non-magnetic state.
When you move the bar magnet far away from the nails, the magnetic field surrounding the magnet weakens significantly. As a result, the magnetic force acting on the nails decreases, causing them to lose their magnetized state and fall off.