How Does Earth's Orbit Affect Light Travel Time?

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SUMMARY

The discussion centers on calculating the speed of Earth in its orbit based on light travel time delays observed by Ole Roemer. The maximum delay of 14 seconds corresponds to a light travel distance of 4.2 x 109 meters. Using this distance over Io's orbital period of 42.5 hours, the calculated speed of Earth is approximately 27,451 m/s. Additionally, participants emphasize using the formula v = d/t and suggest calculating the Earth's orbital circumference using the radius of 1.5 x 108 km to verify the speed over a year.

PREREQUISITES
  • Understanding of light travel time and its implications in astronomy
  • Familiarity with basic physics equations, specifically v = d/t
  • Knowledge of orbital mechanics, particularly circular motion
  • Ability to convert time units, such as years to seconds
NEXT STEPS
  • Calculate the circumference of Earth's orbit using the formula C = 2πr
  • Convert one year into seconds for accurate speed calculations
  • Explore the effects of elliptical orbits on speed calculations
  • Investigate the historical significance of Ole Roemer's findings in astronomy
USEFUL FOR

Astronomy students, physics enthusiasts, and educators looking to understand the relationship between light travel time and orbital mechanics will benefit from this discussion.

ahrog
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Homework Statement


Ole Roemer found that the maximum increased delay in the appearance of Io (a moon of Jupiter, I believe) from one orbit to the next was 14 seconds.
a) How far does light travel in 14 seconds?
b) Each orbit of Io is 42.5 h. Earth traveled the distance calculated above in 42.5 h. Find the speed of Earth in km/s.
c) See if your answer for part b is reasonable. Calculate Earth's speed in orbit using the orbital radius, 1.5 x 10^8 km and the period, one year.


Homework Equations


v=d/t


The Attempt at a Solution


a) I got it to be 4.2 x 10^9 m and I'm pretty confident about that answer, so that isn't where I need help.
b) If Earth traveled the same distance as in a) in 42.5 h, I'm assuming I just go V=d/t where the answer is 27451 m/s...
c) For this, I just can't think of the steps. What formula for orbital motion do I need?
 
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Your answers in (A) and (B) look right to me.

C) I think they want you to assume the Earth is moving along a perfectly circular orbit around the sun (its really slightly elliptical, but I think you can ignore that for this question). Using the given radius (distance from Earth to sun), you can calculate the circumference of that circle (orbit). This is the total distance the Earth travels over the given period of a year. You'll need to convert year into its equivalent amount of seconds.

Now you can use: v = d / t

Hint: watch your units

I got an answer that is comparable to the answer in (B) so hopefully that means its right heh.

Hope that helps :)
 

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