B. The Data Says. Complete the table below by applying the law of periods. Planetary Data Applied to Kepler's Third Law PLANET MEAN DISTANCE FROM THE SUN (r in kilometers) Mercury Venus Earth Mars 57.9 x 10 108.2 x 10 149.6 x 10 227.9 x 10 PERIOD (T in days) in 88.023 224.623 365.24 686.651 1. In what way that the data collected by Brahe paved the way in the discovery of the laws of planetary motion? P/T² km² days 2.51 x 10¹9 2. According to the Law of periods that the ratio of r/T² is the same for each planet, so what do you think is the period of revolution of an imaginary planet if its mean distance from the Sun is 337.9 x 10 km? Comparing its period of revolution to Earth, is the imaginary planet near or far from the Sun? Show your solution.

B. The Data Says. Complete the table below by applying the law of periods. Planetary Data Applied to Kepler's Third Law PLANET MEAN DISTANCE FROM THE SUN (r in kilometers) Mercury Venus Earth Mars 57.9 x 10 108.2 x 10 149.6 x 10 227.9 x 10 PERIOD (T in days) in 88.023 224.623 365.24 686.651 1. In what way that the data collected by Brahe paved the way in the discovery of the laws of planetary motion? P/T² km² days 2.51 x 10¹9 2. According to the Law of periods that the ratio of r/T² is the same for each planet, so what do you think is the period of revolution of an imaginary planet if its mean distance from the Sun is 337.9 x 10 km? Comparing its period of revolution to Earth, is the imaginary planet near or far from the Sun? Show your solution.

Applications and Investigations in Earth Science (9th Edition)

9th Edition

ISBN:9780134746241

Author:Edward J. Tarbuck, Frederick K. Lutgens, Dennis G. Tasa

Publisher:Edward J. Tarbuck, Frederick K. Lutgens, Dennis G. Tasa

Chapter1: The Study Of Minerals

Section: Chapter Questions

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Question

B. The Data Says. Complete the table below by applying the law of periods.
Planetary Data Applied to Kepler's Third Law
PLANET
Mercury
Venus
Earth
Mars
MEAN DISTANCE FROM THE SUN
(r in kilometers)
57.9 x 10
108.2 x 10
149.6 x 10
PERIOD
(T in days)
88.023
224.623
365.24
in
r/T²
km²
days²
2.51 x 10¹9
227.9 x 106
686.651
1. In what way that the data collected by Brahe paved the way in the discovery of the laws of planetary motion?
2. According to the Law of periods that the ratio of r/T² is the same for each planet, so what do you think is the
period of revolution of an imaginary planet if its mean distance from the Sun is 337.9 x 10 km? Comparing
its period of revolution to Earth, is the imaginary planet near or far from the Sun? Show your solution.
OC
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