A freely suspended magnet always points in north - south direction. This is because its south pole is attracted by earth 's north pole and the north pole of the magnet is attracted by the earth 's south pole. when we hang it freely it automatically starts pointing in north-south direction. The magnetic compass also works on the same principle.
Yes, a freely suspended magnet will align itself in the north-south direction due to Earth's magnetic field. This behavior is commonly observed in magnetic compasses.
A freely suspended magnet will always point in the same direction because it aligns itself with the Earth's magnetic field. This causes one end of the magnet to point towards the Earth's magnetic north pole and the other end to point towards the South pole.
A freely suspended magnet would align itself along the north-south direction due to Earth's magnetic field. This alignment happens because the north pole of the magnet points towards the Earth's magnetic north pole.
A freely suspended magnet aligns itself in the north-south direction because the Earth itself acts like a giant magnet with its magnetic poles located near the geographic North and South poles. The magnetic field of the Earth exerts a force on the magnetic poles of the freely suspended magnet, causing it to align north-south.
A freely suspended magnet aligns itself in the north-south direction because Earth's magnetic field lines run roughly from the geographic north pole to the south pole. However, the magnet may not point directly to true north due to local magnetic anomalies or the presence of nearby magnetic materials that can influence its orientation.
yes it does
Yes, a freely suspended magnet will align itself in the north-south direction due to Earth's magnetic field. This behavior is commonly observed in magnetic compasses.
it will rest in the north - south direction
A freely suspended magnet 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 pole, and the south pole will point towards the geographic south pole.
Along an axis between the North and South Magnetic Poles.
A freely suspended magnet will always point in the same direction because it aligns itself with the Earth's magnetic field. This causes one end of the magnet to point towards the Earth's magnetic north pole and the other end to point towards the South pole.
A freely suspended magnet would align itself along the north-south direction due to Earth's magnetic field. This alignment happens because the north pole of the magnet points towards the Earth's magnetic north pole.
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.
A freely suspended magnet aligns itself in the north-south direction because the Earth itself acts like a giant magnet with its magnetic poles located near the geographic North and South poles. The magnetic field of the Earth exerts a force on the magnetic poles of the freely suspended magnet, causing it to align north-south.
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.
When a magnet is suspended freely, it aligns itself in the north-south direction due to Earth's magnetic field. The north pole of the magnet is attracted to the Earth's magnetic south pole, causing it to point in the north-south direction. This phenomenon is a result of the magnet seeking to minimize its potential energy by aligning with the magnetic field of the Earth.
A freely suspended magnet aligns itself in the north-south direction because Earth's magnetic field lines run roughly from the geographic north pole to the south pole. However, the magnet may not point directly to true north due to local magnetic anomalies or the presence of nearby magnetic materials that can influence its orientation.