Orbits of the Galilean Moons

From PC5214 wiki
Revision as of 16:01, 25 February 2022 by Matthew (talk | contribs) (Added Background subsection)
Jump to navigation Jump to search
Jupiter and the four Galilean moons

Galileo Galilei’s discovery of celestial bodies that orbit something other than the Earth marked the beginning of the end of the geocentric model of the universe. In this project, we will perform the same observations on those moons as Galileo did 400 years ago.

Team Members

Objectives

  • To observe the planet Jupiter and its four largest moons—Io, Europa, Ganymede, and Callisto
  • To measure the orbital parameters of those four moons
  • To explore the orbital resonances of the inner three of those moons—Io, Europa, and Ganymede
  • To verify Kepler’s Third Law
  • To assess the viability of consumer equipment in performing precise scientific measurements

History

Animation of Galileo's observations as drawn in his book Sidereus Nuncius in 1610

Jupiter is a planet that was known to the ancients as it is the fourth brightest object in the sky behind the Sun, the Moon and Venus, and is visible to the naked eye. In 1609, astronomer Galileo Galilei made improvements to his telescope, which was the best in the world at the time. With the telescope, over the course of several weeks, he observed four “stars” moving in a line around Jupiter and was persuaded after just four days of observations that they were not stationary stars but instead objects orbiting the planet Jupiter.

This discovery, along with several others, was the cornerstone of the Copernican Revolution, which was the transition from the geocentric to the heliocentric model, with the Sun instead of the Earth at the center of the universe.

Since then, astronomers have discovered a total of 80 moons, 23 of which have no official names.

Background

The four Galilean moons, in increasing order of orbital radius, are Io, Europa, Ganymede, and Callisto, of which, Io, Callisto, and Ganymede are larger than the Earth's Moon. Ganymede is even larger than the planet Mercury. Because of their size, they can be observed from Earth with a small telescope or even a pair of powerful binoculars.

The main challenge faced when trying to observe these moons is the sheer brightness of Jupiter relative to the dim moons, and their small angular separation from Jupiter. This is especially true for the innermost moons Io and Europa.

Apparatus

Setup used to image Jupiter and its satellites
Screenshot of a camera live view of Jupiter