Suppose future astronauts are living on a Martian base when a major solar flare occurs. How long will it be before the charged particles ejected from the Sun during the flare reach them?

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Respuesta :

Teebhabzie Teebhabzie · Answer 1 · 2020-03-08T02:13:06+01:00

Answer:

755.7 seconds

Explanation:

Distance between Sun and Mars = 226.71 * 10^9 m

Speed of light = 3 * 10^8 m/s

Speed = distance/time

Time = distance/speed

Time = (226.71 * 10^9)/(3 * 10^8)

Time = 755.7 s

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nizhalspark nizhalspark · Answer 2 · 2021-08-09T05:52:07+02:00

Answer:

It will be [tex]755.7[/tex] seconds before the charged particles ejected from the Sun during the flare reach them.

Explanation:

Given:

Future astronauts are living on a Martian base when a major solar flare occurs.

Step 1:

The speed of light [tex]= 3 \times 10^8 m/s[/tex]

Distance between Sun and Mars [tex]= 226.71 \times 10^9 m[/tex]

Step 2:

From the formula,

Time [tex]=[/tex] Distance[tex]/[/tex]Speed

Time [tex]= (226.71 \times 10^9)/(3 \times 10^8)[/tex]

∴Time [tex]= 755.7 s[/tex]

Therefore, It will be [tex]755.7[/tex] seconds before the charged particles ejected from the Sun during the flare reach them.

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