Earth's magnetic field (and the surface magnetic field) is approximately a magnetic dipole, with one pole near the north pole and the other near the geographic south pole. The Inner Van Allen Belt & Outer Van Allen Belt cause the magnetic field.
Solar flares and coronal mass ejections (CMEs) are the particles that are thrown off the Sun's corona and can affect Earth's magnetic field. These events release energetic particles and electromagnetic radiation that can disturb the Earth's magnetosphere and cause geomagnetic storms.
The compass needle will only align itself with the magnetic meridian if it is free from all other influences except the magnetic field of earth.This is rarely so, particularly on a ship which constructed on steel. The magnetism induced in the steel by the earths magnetic field causes the compass needle to deviate from the magnetic meridian, by an amount which is called the DEVIATION.
A plasma plume is a stream of hot, ionized gas that is ejected from a source, such as a spacecraft or a lightning bolt. These plumes can be found in various natural and artificial phenomena, and their behavior is of interest in fields like astrophysics and material science.
The Earth's magnetic field is strongest at the North and South magnetic poles, which are not the same as the geographic North and South poles. The magnetic field strength varies at different locations on the Earth's surface.
The Earth's magnetic field is primarily caused by the movement of molten iron and nickel in its outer core. This movement generates electric currents, creating a magnetic field that extends into space and helps protect the Earth from harmful solar radiation.
It is Earths' "Magnetosphere".
It is Earths' "Magnetosphere".
The region of the Earth's magnetic field is called the magnetosphere. It extends far into space and protects the Earth from solar wind particles and cosmic radiation. The magnetosphere is created by the interaction between the Earth's magnetic field and the solar wind.
The Earth's magnetic field is called the geomagnetic field. It is generated by the motion of molten iron and nickel in the outer core of the Earth. This field is crucial for protecting our planet from harmful solar radiation.
magnetosphere i had to do this for school in 6th grade
The area surrounding Earth that is influenced by Earth's magnetic fields is called the magnetosphere. Its primary function is to protect the planet from the solar wind and cosmic rays by deflecting charged particles.
Earth's magnetic sphere, or magnetosphere, is a region around the planet where its magnetic field is dominant, protecting it from the solar wind. This magnetic field is generated by the movement of liquid iron in the outer core of the Earth. The magnetosphere plays a crucial role in shielding Earth from harmful radiation and helping to create the auroras.
The magnetosphere is the region surrounding Earth where its magnetic field interacts with the solar wind, a stream of charged particles emitted by the Sun. The solar wind can compress and distort Earth's magnetosphere, leading to fluctuations in the magnetic field and the formation of phenomena such as geomagnetic storms and auroras.
What escapes the crust is what we observe as the earths magnetic field. The outer core is a rotating mass of fluid metal that induces an electrical current which in turn generates the magnetosphere.
The region surrounding Earth that is influenced by Earth's magnetic field is called the magnetosphere. This region helps protect Earth from harmful solar radiation and charged particles from the sun by deflecting them away from the planet. The magnetosphere extends into space and interacts with solar winds to create phenomena like the auroras.
The convection that causes Earth's magnetic field happens in Earth's molten outer core.
What escapes the crust is what we observe as the earths magnetic field. The outer core is a rotating mass of fluid metal that induces an electrical current which in turn generates the magnetosphere.