rocks with magnetic fields that point south have
A compass is a type of magnet. It interacts with the magnetic fieds in earth so it will point north, northeast, northwest, east, west, south, southeast, and southwest to the correct directions due to the magnetic fields of the earth. A compas rose is an illustration drawn on a map to show the direction of North, South, Northeast, North Northeast, etc., on that map.
One end points to magnetic north and the other end points to the south.
South Korea's highest point is Hallasan, an extinct volcano, which is 1,950 meters (6,398 feet) above sea level.
No, not all pro football fields have a north/south layout. For example, the new multi-billion dollar Texas Stadium lays east to west. There is no rule in the nfl rule book that requires endzones to be on the north/south sides of the field. Most fields have endzones on the north/south sides so the sun doesn't shine in the players' eyes. This becomes a moot point in domed stadiums. Although the football colloquium "a north/south runner" can still be used to refer to players playing on a field that lays east/west. This phrase refers to backs who don't use fancy footwork to gain yardage; rather, they run up the middle of the field with little deviation.
Saratoga.
Yes, magnetic fields point from north to south.
that they were formed when Earth's magnetic field was reversed, with the magnetic north pole being near the geographic south pole. This phenomenon is known as paleomagnetism and is used to study the history of Earth's magnetic field and plate tectonics.
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.
south pole
Magnetic fields flow from north to south in a continuous loop, with the lines of force moving outward from the north pole and curving back towards the south pole. This creates a closed loop pattern that allows the magnetic field to circulate and interact with other magnetic fields.
In a regular magnetic compass, the needle is a magnet. One end is the south pole and the other end is the north pole. Magnets are affected by other magnets. If a magnet is placed near a magnetic compass, the north pole of the compass's needle is attracted by the south pole of the magnet, and the south pole of the compass's needle is attracted by the north pole of the magnet.
The South Pole of the Earth's magnetic field is considered to be the magnetic south pole, where the magnetic field lines point into the Earth. This is opposite to the geographic south pole, which is the point that lies at the southernmost tip of the Earth's axis of rotation.
Magnetic fields originate from the north and south poles of a magnet or a magnetic material. These poles generate magnetic flux lines that flow from the north pole to the south pole, creating a magnetic field around the magnet.
The tangent to a magnetic field line at any point indicates the direction of the magnetic field at that specific location. This is because the tangent line represents the direction a compass needle would point if placed at that point on the field line. The magnetic field lines themselves flow from the north pole of a magnet to its south pole, with the tangent pointing in the direction the magnetic field would act on a north pole.
Magnetic field lines point from the south pole to the north pole of a magnet.
The three magnetic poles are the north magnetic pole, the south magnetic pole, and the geomagnetic pole. The north and south magnetic poles are where the Earth's magnetic field lines converge and point vertically into or out of the Earth's surface, while the geomagnetic pole is the point on the Earth's surface above the axis of the magnetic field.
The magnetic fields of any magnet are greatest closest to the poles (north and south). The strength of the magnetic field decreases as you move away from the poles towards the center of the magnet.