How Long Does It Take for Radio Transmissions Between Earth and Jupiter?

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When Jupiter and Earth are aligned on the same side of the Sun, the minimum distance between them is approximately 6.29 E11 meters. Radio transmissions travel at the speed of light, which is about 3 E8 meters per second, resulting in a one-way communication time of approximately 2,096 seconds, or about 35 minutes. For the astronauts to receive a response from mission control, they must wait for the initial message to reach Earth and then for the reply to return, effectively doubling the communication time to around 4,192 seconds, or about 70 minutes. Understanding the distances involved and the speed of light is crucial for calculating these transmission times. Accurate calculations are essential for effective communication in space missions.
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Suppose some astronauts have landed on Jupiter.
(a) When Jupiter and Earth are on the same side of the Sun and as close as they can be to one another, how long does it take for radio transmissions to travel one way between the two planets?




Suppose the astronauts ask a question of mission control personnel on Earth. What is the shortest possible time they have to wait for a response? The average distance from Jupiter to the Sun is 7.78 E11 m.


- i figured the the answer to a) would be distance divided by the speed of light but that isn't getting me anywhere
-i don't even know where to begin on the second one
 
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You are correct that the answer to part a) is:

t=d_min/c

HINTS:

For part a) You need to know how far apart Jupiter and Earth are for this case. How far is the Earth from the sun? How far is Jupiter from the sun? Can you now find how far apart the two planets are when they are on the same side of the sun? It may help to draw a picture.

For part b) Remember that the astronauts have to wait for their radio message to get to earth, and then they have to wait for the response to travel back to them. Using what you know from part a), how long does this whole process take?
 

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