To determine the North Pole of an unmarked magnet, you can use a compass. The needle of the compass will point towards the North Pole of the magnet, helping you identify its orientation.
To determine the poles of a magnetized iron bar, you can use a compass. One end of the bar that attracts the north-seeking end of the compass needle is the north pole of the bar. The opposite end that attracts the south-seeking end of the compass needle is the south pole of the bar.
A compass is a small magnet that aligns itself with the Earth's magnetic field. The north pole of the compass is attracted to the Earth's magnetic south pole, which is located near the geographic North Pole. This is because opposite magnetic poles attract each other, so the north pole of the compass is drawn towards the Earth's magnetic south pole.
A compass works by aligning itself with the Earth's magnetic field. One end of the compass needle is attracted to the Earth's magnetic north pole, which is near the geographical north pole. This alignment allows the compass needle to point north-south accurately.
A compass needle aligns with the Earth's magnetic field, which is generated by the movement of molten iron in the planet's outer core. The north-seeking end of the compass needle is attracted to the Earth's magnetic north pole, causing it to point in that direction.
To determine the North Pole of an unmarked magnet, you can use a compass. The needle of the compass will point towards the North Pole of the magnet, helping you identify its orientation.
The northern end of the British compass needle will be weighted because it is attracted to the magnetic North Pole.
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If you followed a compass needle pointing north, you would eventually end up at the North Pole, the point on Earth's surface that lies at 90 degrees north latitude.
The pole of the compass that is attracted to the earth's magnetic north pole must be a south magnetic pole. But here's the thing. In the compass, the south magnetic pole of the needle is marked "N" because that end of the compass needle points to earth's magnetic north. The only way the needle can point to earth's magnetic north is if that end of the needle, the one marked with an "N" on it, is a magnetic south pole. It almost seems counter intuitive, but think it through and it will become clear.
To determine the poles of a magnetized iron bar, you can use a compass. One end of the bar that attracts the north-seeking end of the compass needle is the north pole of the bar. The opposite end that attracts the south-seeking end of the compass needle is the south pole of the bar.
The pole of the compass that is attracted to the earth's magnetic north pole must be a south magnetic pole. But here's the thing. In the compass, the south magnetic pole of the needle is marked "N" because that end of the compass needle points to earth's magnetic north. The only way the needle can point to earth's magnetic north is if that end of the needle, the one marked with an "N" on it, is a magnetic south pole. It almost seems counter intuitive, but think it through and it will become clear.
A compass needle aligns with the Earth's magnetic field, which has a north and south pole. The north-seeking end of the magnet is attracted to the Earth's magnetic south pole, causing the needle to point north.
If a magnetic compass needle is placed in a magnetic Field , its needle deflects and points in the north and south directions
There is a magnetic field surrounding the Earth. The positive pole of this magnetic field (called the north magnetic pole) is near the North Pole. A compass has a freely rotating needle that is magnetized such that one end of the needle points toward the north magnetic pole.
What features of the earth makes a compass needle point north
To determine the north pole of a magnet without labels, you can use a compass. The north pole of a magnet will attract the south pole of a compass needle, which points towards Earth's magnetic north. Placing the unknown magnet near the compass will let you see which end of the needle it attracts, thus identifying the north pole of the magnet.