Mid-Ocean Ridges
The Van Allen radiation belts
the belts result from charged particles interacting with the magnetic field of the earth and incurring an inward force pulling it into a tighter and tighter spiral as it penetrates deeper into the earth's atmosphere.finally its forward motion is reversed and the particle spirals along the magnetic force line to the other end where a similar reflection occurs. the magnetic field axis is rotated eastward from the geographical axis which provides an unsymetrical magnetic particle distribution in the earth coordinate. solar flares cause large asymmeries in the particle distribution and potentially harmful damage to exposed skin,electronics and particle detectors.
Belts of charged particles and high radiation are known as the Van Allen radiation belts. These belts are located around Earth and consist primarily of electrons and protons trapped by Earth's magnetic field. They play a crucial role in protecting the planet from solar and cosmic radiation, but can also pose risks to satellites and astronauts.
Actually, magnetic domains are regions within a magnetic material where the atom's magnetic moments are lined up in a preferred orientation, contributing to the overall magnetic properties of the material. These domains can be influenced by external magnetic fields and play a role in the material's magnetism.
The lines are latitude,heat equator and pressure belts.
The Earth has two main radiation belts called the Van Allen belts, named after their discoverer. These belts consist of charged particles, mainly electrons and protons, trapped by Earth's magnetic field. The belts are located in the region of space around the Earth where the magnetic field interacts with particles from the Sun.
The donut shaped radiation belts around the Earth are called the Van Allen Belts. There are similar belts around every planet with a magnetic field.
Parallel belts of folded mountains and volcanic mountains
Charged particles from the sun become trapped in the Van Allen radiation belts due to the Earth's magnetic field. The magnetic field bends the charged particles' trajectories, causing them to spiral along the field lines and get trapped in the region around the Earth's magnetic poles.
The Van Allen radiation belts
If you mean leather, as in shoes and belts, then the answer is no.
Parallel belts of folded mountains and volcanic mountains
Parallel belts of folded mountains and volcanic mountains
The Van Allen radiation belts are two zones of charged particles (electrons and protons) held in place by Earth's magnetic field. These belts help protect Earth by trapping and deflecting harmful solar radiation, acting as a magnetic sunscreen that prevents most of the radiation from reaching the Earth's surface. This protection is important for maintaining the safety of astronauts and satellites in space.
Charged particles trapped in the Van Allen belts experience deflection due to Earth's magnetic field. They tend to spiral along the magnetic field lines, moving in a corkscrew pattern rather than directly from pole to pole. This deflection helps confine the particles within the belts.
the belts result from charged particles interacting with the magnetic field of the earth and incurring an inward force pulling it into a tighter and tighter spiral as it penetrates deeper into the earth's atmosphere.finally its forward motion is reversed and the particle spirals along the magnetic force line to the other end where a similar reflection occurs. the magnetic field axis is rotated eastward from the geographical axis which provides an unsymetrical magnetic particle distribution in the earth coordinate. solar flares cause large asymmeries in the particle distribution and potentially harmful damage to exposed skin,electronics and particle detectors.
Charged particles are deflected along the Van Allen belts due to the Earth's magnetic field. This deflection causes the particles to spiral around the magnetic field lines, trapping them in the belts and preventing them from reaching the Earth's surface.