No. If you are talking about magnetic compasses, they are aligned with the Earth's magnetic field, which is not exactly north-south (depending where on the Earth you are located). There are, however, special compasses that make use of the Earth's rotation; those will point north-south, regardless of the magnetic field.
No. If you are talking about magnetic compasses, they are aligned with the Earth's magnetic field, which is not exactly north-south (depending where on the Earth you are located). There are, however, special compasses that make use of the Earth's rotation; those will point north-south, regardless of the magnetic field.
No. If you are talking about magnetic compasses, they are aligned with the Earth's magnetic field, which is not exactly north-south (depending where on the Earth you are located). There are, however, special compasses that make use of the Earth's rotation; those will point north-south, regardless of the magnetic field.
No. If you are talking about magnetic compasses, they are aligned with the Earth's magnetic field, which is not exactly north-south (depending where on the Earth you are located). There are, however, special compasses that make use of the Earth's rotation; those will point north-south, regardless of the magnetic field.
No. If you are talking about magnetic compasses, they are aligned with the Earth's magnetic field, which is not exactly north-south (depending where on the Earth you are located). There are, however, special compasses that make use of the Earth's rotation; those will point north-south, regardless of the magnetic field.
At either of the magnetic poles, the lines of force enter the planet, so the compass needle will attempt to point straight downward. Due to minor fluctuations, some compasses will spin or pivot about.Near either geographic pole, compasses will still point toward the magnetic pole, which may be north, south, east, or west of the user's position.
No. A compass, being at its heart a magnet, is attuned to Earth's magnetic north, which is currently near Canada's Ellesmere Island, and moving in the direction of Russia at approximately 40 miles (65 km.) per year.For most purposes, the geographic and magnetic north poles are close enough to make little difference; but as you approach one or the other, you have to use a conversion chart to find your true location.
No. The compass needle points toward the magnetic north pole.
They are used to make maps and find the original spawnpoint.
The compass has a small magnet, that can move around freely. This is affected by the Earth's magnetic field. The Earth's magnetic south pole is near its geographic northpole, but not exactly so.
Without magnetic metal or other magnets nearby to deflect them, magnetic compasses point exactly tothe earth's north magnetic pole. The user must be aware that the north magnetic pole is not located atthe earth's north geographic pole, and make the necessary correction in order to find the true geographicdirections from his location.
In the Southern Hemisphere, compasses still point towards magnetic north. The difference is that magnetic north is located in the Northern Hemisphere, so compasses in the Southern Hemisphere will point in a northerly direction.
The definition of a true compass bearing - A true bearing is measured in relation to the fixed horizontal reference plane of True North, that is using the direction towards the geographic North Pole as a reference point.
Center of the earth
They use the fact that the earth acts as a giant magnet so that compasses point towards the north pole.
The earth's north magnetic pole ... the structure inside the earth that actually attracts magnets ... is more than 900 miles away from the real north pole. (And it also moves slightly from month to month.) If you're not standing on the line that passes through both the geographic and magnetic poles, then when your compass points toward the magnetic pole, it's pointing left or right of the real geographic pole.
To the right.