The south end of a bar magnet always points toward the Earth's geographic north pole. This is because the Earth itself acts like a giant magnet, with its magnetic field lines emerging from the geographic south and entering the geographic north. Thus, the south pole of a magnet is attracted to the magnetic north of the Earth.
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.
When a bar magnet is suspended freely, it will align itself with the Earth's magnetic field. The north pole of the magnet will point towards the Earth's magnetic north, while the south pole will point towards the magnetic south. This alignment occurs due to the magnetic forces acting on the magnet, allowing it to rotate until it reaches a stable equilibrium position.
I think it is the north and the south parts of the magnet.
Magnets always align in N-S direction because the earth itself behaves lika a huge bar magnet. The north pole of the bar magnet attracts the geographical south pole and the south pole attracts the geographical north pole. That is why magnets always align in N-S direction.
Yes, a bar magnet is inherently magnetic due to its alignment of magnetic domains within the material. This alignment creates a magnetic field around the magnet that interacts with other magnetic material or objects.
Answer. Two properties of a magnet are: (i) A magnet always has two poles: north pole and south pole.
Use a compass. It will point to a magnet's south pole.
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.
If a bar magnet is suspended vertically, it will align itself in the north-south direction due to Earth's magnetic field. The north pole of the magnet will point towards the geographic north and the south pole towards the geographic south.
When a compass needle is placed near a bar magnet, it aligns itself with the magnetic field created by the magnet. The compass needle is a small magnet itself, with its north pole attracted to the south pole of the bar magnet and repelled by its north pole. If the compass needle points south, it indicates that the bar magnet's south pole is near the compass's north pole, demonstrating the fundamental property of magnetic attraction and repulsion. Thus, the orientation of the compass needle reflects the magnetic field direction of the bar magnet.
If a bar magnet is broken in half, each piece will become its own smaller magnet with its own north and south poles. The strength of each magnet will be weaker compared to the original bar magnet. The overall magnetic field will be distributed between the two smaller magnets.
When a bar magnet is held in the air by a string, it will align itself along the Earth's magnetic field lines. One end of the magnet will point north while the other end will point south. This behavior is due to the interaction between the bar magnet's magnetic field and the Earth's magnetic field.
When a bar magnet is suspended freely, it will align itself with the Earth's magnetic field. The north pole of the magnet will point towards the Earth's magnetic north, while the south pole will point towards the magnetic south. This alignment occurs due to the magnetic forces acting on the magnet, allowing it to rotate until it reaches a stable equilibrium position.
A bar magnet would align itself with the Earth's magnetic field in a north-south direction. One end of the bar magnet would point towards the magnetic north pole while the other end points towards the magnetic south pole. This alignment is due to the interaction between the magnetic field of the planet and the magnetic properties of the bar magnet.
Well there isn't any positive or negative on a magnet. But to find North and South, you can suspend a bar magnet on a string and see which way it points, or use a compass. Remember that the North Magnetic Pole defines what Magnetic North is, and on a compass or a bar magnet the SOUTH magnetic pole point at it.
I think it is the north and the south parts of the magnet.
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.