No. I assume you mean a magnetic compass. A magnetic compass reacts to magnetic fields; the magnetic south pole of Earth is not exactly at the geographic north pole, so at some points of the Earth's surface, the magnetic compass will actually point south instead of north. Also, a magnetic compass will be influenced by other magnetic fields, e.g., current-carrying wires.
No. I assume you mean a magnetic compass. A magnetic compass reacts to magnetic fields; the magnetic south pole of Earth is not exactly at the geographic north pole, so at some points of the Earth's surface, the magnetic compass will actually point south instead of north. Also, a magnetic compass will be influenced by other magnetic fields, e.g., current-carrying wires.
No. I assume you mean a magnetic compass. A magnetic compass reacts to magnetic fields; the magnetic south pole of Earth is not exactly at the geographic north pole, so at some points of the Earth's surface, the magnetic compass will actually point south instead of north. Also, a magnetic compass will be influenced by other magnetic fields, e.g., current-carrying wires.
No. I assume you mean a magnetic compass. A magnetic compass reacts to magnetic fields; the magnetic south pole of Earth is not exactly at the geographic north pole, so at some points of the Earth's surface, the magnetic compass will actually point south instead of north. Also, a magnetic compass will be influenced by other magnetic fields, e.g., current-carrying wires.
A compass works by aligning itself with the Earth's magnetic field. The needle of the compass is magnetized, pointing towards the magnetic north pole. As long as the Earth's magnetic field remains stable and the compass is not influenced by nearby magnetic objects, it will always point north.
Not necessarily. Work is the product of force and displacement in the direction of force. If the force is applied but there is no movement or displacement, then no work is done. So, a greater amount of force does not always result in a greater amount of work if there is no displacement.
The compass needle is itself a magnet which is why it always points north according to the earth's magnetic field. If you place a magnet (Whose magnetic power is stronger than the earth's) close to the compass its needle will be attracted t the magnet and not to the North Pole.
Yes, a compass will work on an aluminum boat as long as there are no strong magnetic interferences nearby that could affect its accuracy. Aluminum itself does not interfere with the function of a compass.
Nautical compasses work based on the Earth's magnetic field. The compass needle aligns itself with the magnetic field lines, indicating the north-south direction. The compass rose on the compass card provides reference points for navigation.
A compass works by aligning itself with the Earth's magnetic field. The needle of the compass is magnetized, pointing towards the magnetic north pole. As long as the Earth's magnetic field remains stable and the compass is not influenced by nearby magnetic objects, it will always point north.
Compass
The magnet in the compass is attracted to the magnetic field in the Earth's core. The N on the compass always point to magnetic north.... Don't get that confused with geographical north. They are different. Hope this helps.
A compass point is lightly magnetised and is attracted the the magnetic north pole, so provided there are no other stronger magnets nearby the compass will always point north, and knowing where north is you can then work out all the other directions.
A compass
Yes.
A compass is the instrument that always shows magnetic North. A compass is used to show which way you are traveling.
Compass points always towards Earth's magnetic north.
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