Selected Questions - Answers From All Experts Astronomy Forum (Ratio of Planets' Orbital velocities)
Question: How would a person calculate the ratio of the orbital velocities of two planets, say Earth and Venus?
Answer: This is a relatively straightforward astronomical computation, using:
V2/V1 = (a2/a1) (T1/T2)
Where a2, and a1 are the respective semi-major axes of the orbits (i.e. the mean distances from the Sun) and T2, T1 are the respective periods.
By convention we assign '1' to the inner planet (e.g. Venus) and '2' to the outer (Earth).
Then we have a2 = 1 AU, and for Venus we need to obtain T1 from Kepler's third law:
(T1/ T2) 2 = k(a1/ a2) 3
Now:
T1 = (224.69/365.25) yr. = 0.6151 yr.
And Venus' semi-major axis is:
a1 = {[T1] 2 }1/3 = [(0.6151)2] 1/3
a1 = 0.723 AU
Therefore:
V2/V1 = (0.723)(1/0.6151)
V2/V1 = 1.175
This can be checked using a Table of Orbital velocities found in Astrometric & Geodetic Data, from which one finds:
V(Venus) = 35.02 km/s
V(Earth) = 29.78 km/s
Take the ratio:
Answer: This is a relatively straightforward astronomical computation, using:
V2/V1 = (a2/a1) (T1/T2)
Baca Juga
Where a2, and a1 are the respective semi-major axes of the orbits (i.e. the mean distances from the Sun) and T2, T1 are the respective periods.
By convention we assign '1' to the inner planet (e.g. Venus) and '2' to the outer (Earth).
Then we have a2 = 1 AU, and for Venus we need to obtain T1 from Kepler's third law:
(T1/ T2) 2 = k(a1/ a2) 3
Now:
T1 = (224.69/365.25) yr. = 0.6151 yr.
And Venus' semi-major axis is:
a1 = {[T1] 2 }1/3 = [(0.6151)2] 1/3
a1 = 0.723 AU
Therefore:
V2/V1 = (0.723)(1/0.6151)
V2/V1 = 1.175
This can be checked using a Table of Orbital velocities found in Astrometric & Geodetic Data, from which one finds:
V(Venus) = 35.02 km/s
V(Earth) = 29.78 km/s
Take the ratio:
V(Venus)/V(earth) = (35.02 km/s)/ (29.78 km/s) = 1.175
So, Venus' orbital velocity is 1.175 times Earth's
So, Venus' orbital velocity is 1.175 times Earth's
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