High above the surface of the Earth, charged particles ( such as electrons and protons) can become trapped in the Earth's magnetic field in regions known as Van Allen belts. A typical electron in a Van Allen belt has an energy of 55 keV and travels in a roughly circular orbit with an average radius of 220 m. What is the magnitude of the Earth's magnetic field where such an electron orbits? HT

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High above the surface of the Earth, charged particles (
such as electrons and protons) can become trapped in
the Earth's magnetic field in regions known as Van Allen
belts. A typical electron in a Van Allen belt has an
energy of 55 keV and travels in a roughly circular orbit
with an average radius of 220 m. What is the
magnitude of the Earth's magnetic field where such an
electron orbits?
HT
Transcribed Image Text:High above the surface of the Earth, charged particles ( such as electrons and protons) can become trapped in the Earth's magnetic field in regions known as Van Allen belts. A typical electron in a Van Allen belt has an energy of 55 keV and travels in a roughly circular orbit with an average radius of 220 m. What is the magnitude of the Earth's magnetic field where such an electron orbits? HT
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