A disturbance passes through the Sun's corona (e.g. a CME) and produces radio emissions that are observed at Earth. Calculate the emission frequency if it originates from a region where the electron density is 108 cm-3, the temperature is 1.5 MK, and the magnetic field strength is 10-4 Gauss. Report your answer in MHz to 2 significant digits.
A disturbance passes through the Sun's corona (e.g. a CME) and produces radio emissions that are observed at Earth. Calculate the emission frequency if it originates from a region where the electron density is 108 cm-3, the temperature is 1.5 MK, and the magnetic field strength is 10-4 Gauss. Report your answer in MHz to 2 significant digits.
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![A disturbance passes through the
Sun's corona (e.g. a CME) and
produces radio emissions that are
observed at Earth. Calculate the
emission frequency if it originates
from a region where the electron
density is 108 cm-3, the
temperature is 1.5 MK, and the
magnetic field strength is 10-4
Gauss. Report your answer in MHz
to 2 significant digits.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc4864361-de24-48b6-8129-256f35d4509d%2F9648355c-f1fc-467e-9e82-5e34b3012d00%2Fs9uzd6j_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A disturbance passes through the
Sun's corona (e.g. a CME) and
produces radio emissions that are
observed at Earth. Calculate the
emission frequency if it originates
from a region where the electron
density is 108 cm-3, the
temperature is 1.5 MK, and the
magnetic field strength is 10-4
Gauss. Report your answer in MHz
to 2 significant digits.
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