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19 August, 04:24

Calculate the orbital period for Jupiter's moon Io, which orbits 4.22*105km from the planet's center (M=1.9*1027kg).

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  1. 19 August, 04:53
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    150000 seconds or approximately 1.7 days. The equation for the orbital period is: Ď„=âš ((4Ď€^2/ÎĽ) a^3) where Ď„ = Period ÎĽ = standard gravitational parameter (GM) a = semi-major axis It's generally better to use ÎĽ rather than the product of G and M since we know ÎĽ more accurately than either G or M in many cases from observations of satellites around the various planets. For instance in the case of Jupiter, we know ÎĽ is 1.26686534 (9) Ă-10^17 whereas we only know it's mass at 1.8982x10^27 kg and G at 6.674x10^-11 m^3 / (kg*s^2). Anyway, let's first calculate ÎĽ based upon the data given: ÎĽ = 1.9x10^27 kg * 6.67ex10^-11 m^3 / (kg*s^2) ÎĽ = 1.26806x10^17 m^3/s^2 Now let's substitute the known values into the equation for the orbital period. Ď„=âš ((4Ď€^2/ÎĽ) a^3) Ď„=âš ((4Ď€^2/1.26806x10^17) (4.22x10^8) ^3) Ď„=âš ((4*9.869604401/1.26806x10^17) (7.5151448x10^25) Ď„=âš ((39.4784176/1.26806x10^17) (7.5151448x10^25) Ď„=âš ((3.11329256x10^-16) (7.5151448x10^25) Ď„=âš (2.3396844x10^10) Ď„=152960.2706 Rounding to 2 significant figures since that's the precision of the least accurate datum, we get 150000 seconds, or approximately 1.7 days.
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