The iron deposits in which the needle is attracted to is located mainly in the far North American Land Mass, and because a needle is attracted to iron, that is where it will point. If iron deposits were all located in the South, then the compass would point that way. Iron deposits are in the North, so that is why it only points north. A compass uses a magnetic field, and iron is the best metal for magnets and iron is easily attracted to other magnets, the compass faces the deposits. If the magnetic field of the Earth suddenly changed, and this DOES happen naturally every 250,000 years or so, the consequences would be fascinating. For life, we can see from the fossil record that the past field changes had no significant effect on living organisms. This is most curious because the field reversal ( North magnetic pole shifting to Antarctica and the South magnetic pole shifting to the arctic region in the Northern Hemisphere) one might expect the field to go to zero strength for a century or so. This would let cosmic rays freely penetrate to the Earth's surface and cause mutations. This seems not to have had much effect in the past, so we probably don't really know what is going on during these field reversals. There have been a dozen of them over the last few million years, documented in the rock which has emerged and solidified along the mid-Atlantic Ridge where continental plates are slowly separating. These epochs form parallel bands all long the ridge where the rock has stored a fossilized image of the local orientation of the Earth's magnetic field for the last few million years. Magnetic field wandering would let the aurora borealis occur at any latitude, but other than that there would be no noticeable effects other than changes in the amount of cosmic rays that penetrate to the ground. Even this effect is minimal because we can visit the Arctic and Antarctic and only receive a slight increase in cosmic rays. So long as the strength of the field remains high during this field wandering event, the effects should be pretty benign. The Earth's magnetic field is believed to be generated by the rotation of the Earth's molten iron-nickel core. The period of field reversal is determined by the rotation rate of the core and its electrical conductivity. If you were to change either one of these, the field orientation, strength and '250,000 year cycle' would be increased or decreased. We also know from studies of the Sun's magnetic dynamo, that this phenomenon can change abruptly as it did during the 'Little Ice Age' on the Earth a few hundred years ago. There were no sunspots observed on the Sun for 50 years or so, then rather abruptly, the familiar 11-year cycle started-up over the course of a few decades. A similar 'chaotic' phenomenon may occur with the Earth 'suddenly' loosing its magnetic field for a few million years. Already, geophysicists have begun to notice a decline in the strength of the Earth's magnetic field, suggesting that the next field reversal epoch may be about to start. It may, however, take a long time to get here, and we don't really know if the decline is just a natural, ripple, or the portend of something far more sinister.
A 16 point compass is a compass with 16 points, it doesn't have a official name. The points/directions in Right-To-Left order is North (N), North-North-East (NNE), East-North-East (ENE), East (E), East-South-East (ESE), South-East (SE), South-South-East (SSE), South (S), South-South-West (SSW), South-West (SW), West-South-West (WSW), West (W), West-North-West (WNW), North-West (NW) and North-North-West (NNW).
Cardinal compass points are the four main points on a compass: north, south, east, and west. They are used to indicate directions on a map or in navigation.
The name given to the four-point compass is a "cardinal compass." It consists of the four primary directions: north, south, east, and west.
If you are standing on the magnetic north pole, the needle will want to point down. If you are standing on the geographical North Pole, the needle will point South. From the North Pole, every direction is "South"!
That depends on which pole of the magnet it is moved close to. If it is brought close to the "South" pole of the magnet, the "North" pointer of the compass will be attracted to the magnet. If it is brought close to the "North" pole of the magnet, the "North" pointer of the compass will be repelled and will point AWAY from the magnet, while the "South" end of the compass pointer will point to the magnet.
If you point the north side of the compass away from you the compass will point south. Because the needle always points north (magnetism).
Yes, a compass needle will point south of the equator instead of north. The Earth's magnetic field causes the needle to align itself with the magnetic poles, so the compass will indicate south instead of north in the southern hemisphere.
When standing on the Magnetic North Pole, your compass will only South!
South - South - East
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.
Because of the magnetic pull of the north and south pole.
A 16 point compass is a compass with 16 points, it doesn't have a official name. The points/directions in Right-To-Left order is North (N), North-North-East (NNE), East-North-East (ENE), East (E), East-South-East (ESE), South-East (SE), South-South-East (SSE), South (S), South-South-West (SSW), South-West (SW), West-South-West (WSW), West (W), West-North-West (WNW), North-West (NW) and North-North-West (NNW).
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 there is a magnet beside a compass, the compass needle would be influenced by the magnetic field of the magnet rather than Earth's magnetic field. The needle would point towards the opposite pole of the magnet, so if the magnet's north pole is beside the compass, the compass needle would point towards the south.
A compass does not "consume" energy as such. It just align according to the magnetic field of the Earth. One end will point North and the opposite End will point South. Note that the Geographic North and South are different from the magnetic North and South. A compass as in the simple ones with a metal pin giving direction, will always point to the Magnetic North.
Cardinal compass points are the four main points on a compass: north, south, east, and west. They are used to indicate directions on a map or in navigation.
The north pole of a compass needle would still point point towards the north. More precisely, towards the Earth's magnetic south pole, which is close to the geographic north pole.