This can't be seen with the unaided eye. But if you hang the magnet on a string, the end that points north is the magnet's north pole - it alligns itself that way, due to the Earth's magnetic field.
This can't be seen with the unaided eye. But if you hang the magnet on a string, the end that points north is the magnet's north pole - it alligns itself that way, due to the Earth's magnetic field.
This can't be seen with the unaided eye. But if you hang the magnet on a string, the end that points north is the magnet's north pole - it alligns itself that way, due to the Earth's magnetic field.
This can't be seen with the unaided eye. But if you hang the magnet on a string, the end that points north is the magnet's north pole - it alligns itself that way, due to the Earth's magnetic field.
Magnetic field lines point from the south pole to the north pole of a magnet.
Yes. All magnets of north and south poles. There is no such thing as a magnetic monopole.
The strength and direction of the magnetic field produced by a bar magnet is strongest at the poles and weakest at the center. The field lines extend from the north pole to the south pole outside the magnet and from the south pole to the north pole inside the magnet.
Magnetic field lines always travel from the north pole to the south pole outside the magnet, and from the south pole to the north pole inside the magnet.
The direction of magnetic field lines inside a magnet is from the south pole to the north pole. This means that the field lines are directed from the region of higher field intensity (south pole) to the region of lower field intensity (north pole) within the magnet.
The magnetic field lines go from the north pole to the south pole outside the magnet and from the south pole to the north pole inside the magnet.
Magnetic field lines point from the south pole to the north pole of a magnet.
I think it is the north and the south parts of the magnet.
A magnet rests at its north-south position due to Earth's magnetic field. The north pole of a magnet is attracted to Earth's magnetic south pole, causing it to align in a north-south direction.
Yes. All magnets of north and south poles. There is no such thing as a magnetic monopole.
The strength and direction of the magnetic field produced by a bar magnet is strongest at the poles and weakest at the center. The field lines extend from the north pole to the south pole outside the magnet and from the south pole to the north pole inside the magnet.
Magnetic field lines always travel from the north pole to the south pole outside the magnet, and from the south pole to the north pole inside the magnet.
The direction of magnetic field lines inside a magnet is from the south pole to the north pole. This means that the field lines are directed from the region of higher field intensity (south pole) to the region of lower field intensity (north pole) within the magnet.
The north and south ends of a magnet are called poles. The north pole is attracted to the south pole, and vice versa, creating a magnetic field.
A freely suspended magnet aligns itself in the north-south direction due to Earth's magnetic field. The magnet's north pole is attracted to Earth's magnetic south pole, causing it to orient itself accordingly. This alignment is a result of the interaction between the magnet's magnetic field and Earth's magnetic field.
These are known as magnetic field lines, which show the direction and strength of the magnetic field. They form loops around the magnet, moving from the north pole to the south pole outside the magnet and from the south pole to the north pole inside the magnet.
Its an electro-magnet - currents flowing through the iron core.