Direction: Complete the table below. Calculate the problem using the Laws of Planetary Motion based on the given basic planetary data below. Earth Mars Saturn Uranus Neptune Jupiter 1. Mean 3. Distance(r) 44.97x108 1.496 x 108 2.28 x 108 14.27x108 Period of 2. 4. Revolution (T) 365.2 days 1.88 yrs. 11.86 yrs. 84 yrs.

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Direction: Complete the table below.
Calculate the problem using the Laws of Planetary Motion based on the given basic planetary
data below. F
Earth
Mars
Saturn
Uranus Neptune
Jupiter
1.
3.
Mean
Distance(r)
Period of
1.496 x 108
44.97x108
2.28 x 108
14.27x108
2.
4.
Revolution (T)
365.2 days
1.88 yrs.
11.86 yrs.
84 yrs.
Using the Earth as reference, determine the mean distance(r) or the Period of
revolution (T) of each planet. Here is the formula in the Law of Period.
(T₁)² (r₁)²
(T₂)² (r₂)²
=
1. Find the Mean distance of Jupiter.
2. Find the Period of Saturn
3. Find the mean distance of Uranus.
4. Find the Period of Neptune.
Transcribed Image Text:Direction: Complete the table below. Calculate the problem using the Laws of Planetary Motion based on the given basic planetary data below. F Earth Mars Saturn Uranus Neptune Jupiter 1. 3. Mean Distance(r) Period of 1.496 x 108 44.97x108 2.28 x 108 14.27x108 2. 4. Revolution (T) 365.2 days 1.88 yrs. 11.86 yrs. 84 yrs. Using the Earth as reference, determine the mean distance(r) or the Period of revolution (T) of each planet. Here is the formula in the Law of Period. (T₁)² (r₁)² (T₂)² (r₂)² = 1. Find the Mean distance of Jupiter. 2. Find the Period of Saturn 3. Find the mean distance of Uranus. 4. Find the Period of Neptune.
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