In 1619, the German astronomer Johannes Kepler showed that the square of the period of a planet (how long it takes to go around the Sun) is directly proportional to the cube of of the semimajor axis of its eliptical orbit (how far it is from the Sun) with p² = D³ If the distance of the comet ATLAS from the Sun is 26.9158 AU, what is its period around the sun? Round to 2 decimal places. P = years
In 1619, the German astronomer Johannes Kepler showed that the square of the period of a planet (how long it takes to go around the Sun) is directly proportional to the cube of of the semimajor axis of its eliptical orbit (how far it is from the Sun) with p² = D³ If the distance of the comet ATLAS from the Sun is 26.9158 AU, what is its period around the sun? Round to 2 decimal places. P = years
Mathematics For Machine Technology
8th Edition
ISBN:9781337798310
Author:Peterson, John.
Publisher:Peterson, John.
Chapter20: Ratio And Propor Tion
Section: Chapter Questions
Problem 20A: In Figure 208, gear A is turning at 120 revolutions per minute and gear B is turning at 3.6...
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Transcribed Image Text:In 1619, the German astronomer Johannes Kepler showed that the square
of the period of a planet (how long it takes to go around the Sun) is
directly proportional to the cube of of the semimajor axis of its eliptical
orbit (how far it is from the Sun) with
p² = D³
If the distance of the comet ATLAS from the Sun is 26.9158 AU, what is its
period around the sun? Round to 2 decimal places.
P =
years
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