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What is the type of force in a bar magnet suspended freely?
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.
What happen when a magnetic needle is freely suspended?
it will rest in the north - south direction
How Freely Suspended magnet is used in compass for navigation?
A freely suspended magnet responds to the magnetic field of the planet Earth. The Earth's magnetic north pole is close to its geographic north pole, so a compass points (approximately) north.
What is a suspended magnetized magnet?
A suspended magnet is usually a magnet suspended by a thin thread and allowed to rotate and swing freely. This will align itself to the Earth's magnetic field providing there is no other magnetic or electromagnetic influnence.
What happens when a bar magnet is suspended?
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.
How a magnetic compass can be used to find directions on Earths surface?
A compass is an instrument containing a freely suspended magnetic element which displays the direction of the horizontal component of the Earth's magnetic field at the point of observation.
What is the type of force in a bar magnet suspended freely?
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.
What happen when a magnetic needle is freely suspended?
it will rest in the north - south direction
Does a freely suspended magnet always point in the north south direction?
Yes. A freely suspended magnet always point in the north south direction.
What is an instrument for determining direction consisting essentially of a freely suspended magnetic needle that points toward the magnetic north?
This is the description of a magnetic compass.
How Freely Suspended magnet is used in compass for navigation?
A freely suspended magnet responds to the magnetic field of the planet Earth. The Earth's magnetic north pole is close to its geographic north pole, so a compass points (approximately) north.
What is a suspended magnetized magnet?
A suspended magnet is usually a magnet suspended by a thin thread and allowed to rotate and swing freely. This will align itself to the Earth's magnetic field providing there is no other magnetic or electromagnetic influnence.
What is a compass?
A compass is an instrument for determining direction consisting essentially of a freely suspended magnetic needle that points toward the magnetic north.
What can be used for a compass?
a freely suspended magnetic needle as it will always point to the north - south direction
What happens when a bar magnet is suspended?
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.
Why does a freely suspended magnet point in north south direction?
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.
How does a suspended magnet come to rest?
A suspended magnet comes to rest when the magnetic forces acting on it are balanced by other forces, such as gravitational and frictional forces. When the magnet is freely suspended, it will rotate until its magnetic field aligns with the Earth's magnetic field, reaching a position of equilibrium. Additionally, any oscillations or movements will gradually diminish due to air resistance and internal friction, leading the magnet to settle in its most stable orientation.
