The data about the strong belt of charged particles trapped by Earth's magnetic field refers to the Van Allen radiation belts. Discovered in 1958, these belts consist of high-energy electrons and protons that are held in place by Earth's magnetic field, forming two main regions: an inner belt and an outer belt. The inner belt primarily contains high-energy protons, while the outer belt is dominated by electrons. This phenomenon plays a crucial role in space weather and can affect satellites and astronauts in orbit.
No the earths core is not a cause of globel worming
Earths lithosphere is made up of upper mantle. The earths lithosphere is broken into separate sections and it is called as tectonic plates or plate tectonics.
Yes.
the sun
Because.
Those are the Van Allen belts.
Objects such as compass needles, charged particles like electrons and protons, and solar wind are all influenced by Earth's magnetic field along its magnetic lines. These particles can be deflected or trapped by the field as they move through space.
Earth's magnetic field can make magnets out of ferromagnetic material and it affects the movements of electrically charged particles in space.
Energetic charged particles generated by the solar wind.
Earth itself is largely protected from the solar wind by its magnetic field, which deflects most of the charged particles; however some of the charged particles are trapped in the Van Allen radiation belt. XxBaby Dee
No, charged particles from the solar wind are funneled towards the polar regions by the Earth's magnetic field. This results in the formation of the auroras near the poles rather than at the equator where the magnetic field lines are more parallel to the surface.
Earth's magnetic field does not affect light or sound. It primarily interacts with charged particles such as electrons and protons in Earth's atmosphere and in space.
When a solar flare is ejected from the sun it releases billions of positively charged particles (ionized) particles. When these particles hit the earths magnetic feild it produces the aurora borealis.
Particles from the sun sometimes interact with Earth's magnetic field to create the auroras, also known as the northern and southern lights. These dazzling light displays are caused by charged particles from the sun colliding with gases in Earth's atmosphere.
The Earth's magnetosphere acts as a protective shield, deflecting solar wind and charged particles from the sun. This helps to prevent these particles from directly reaching the surface and causing potential harm to living organisms and sensitive electronic systems on Earth.
bright lights from the solar wind trapped in the earths magnetic field.
They get trapped in the Earth's magnetic field.