Imagine a strong shock in the solar wind impacts the Earth's magnetosphere. The shock increases the typical solar wind magnetic field by a factor of 10 (e.g. from 10 nT to 100 nT), but doesn't affect the other solar wind parameters (e.g. density, speed, or temperature). How would the increase to the solar wind magnetic field affect the location of the magnetopause boundary along the Earth-Sun line? O A. The magnetopause would move closer to Earth O B. The magnetopause would move further away from Earth
Imagine a strong shock in the solar wind impacts the Earth's magnetosphere. The shock increases the typical solar wind magnetic field by a factor of 10 (e.g. from 10 nT to 100 nT), but doesn't affect the other solar wind parameters (e.g. density, speed, or temperature). How would the increase to the solar wind magnetic field affect the location of the magnetopause boundary along the Earth-Sun line? O A. The magnetopause would move closer to Earth O B. The magnetopause would move further away from Earth
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Transcribed Image Text:Imagine a strong shock in the solar wind impacts the Earth's magnetosphere. The shock increases the typical solar wind magnetic field by a factor of 10 (e.g. from 10 nT to
100 nT), but doesn't affect the other solar wind parameters (e.g. density, speed, or temperature).
How would the increase to the solar wind magnetic field affect the location of the magnetopause boundary along the Earth-Sun line?
A. The magnetopause would move closer to Earth
B. The magnetopause would move further away from Earth
C. The magnetopause location would not change
D. Not enough information is provided
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