Galilean moons

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Jupiter's 4 Galilean moons, in a composite image comparing their sizes and the size of Jupiter (Great Red Spot visible). From the top, they are Io, Europa, Ganymede, Callisto

The Galilean moons are the four moons of Jupiter found by Galileo Galilei. They are by far the biggest of the many moons of Jupiter.

1 Discovery
2 Name
3 Seeing the moons
4 Notes
5 See also
6 Other websites

[change] Discovery

Galileo Galilei, the discoverer of the 4 Galilean moons.

Galileo Galilei found what came to be known as the Galilean moons around December 1609 or January 1610. As a result of improvements he made to the telescope, Galileo was able to see celestial bodies better than ever before in human history. Using his improved telescope, Galileo was the first to see four moons of Jupiter.^[1]

On January 7, 1610, Galileo wrote a letter containing the first mention of Jupiter’s moons. At the time, he only saw three of them, and he believed them to be fixed stars near Jupiter. He continued to look at these celestial orbs from January 8 through March 2. In these observations, he found a fourth body, and also observed that the four were not fixed stars, but rather were orbiting Jupiter.^[2]

Galileo’s discovery proved the importance of the telescope as a tool for astronomers by showing that there were objects in space to be found that until then had remained unseen by the naked eye. More importantly, the incontrovertible discovery of celestial bodies orbiting something other than the Earth dealt a serious blow to the then-accepted Ptolemaic world system, which held that the Earth was at the center of the universe and all other celestial bodies revolved around it. That Jupiter has four moons while Earth has only one further undercut the near-universal belief that the Earth was the center of the universe both in position and in importance. Galileo's Sidereus Nuncius (Starry Messenger), which announced celestial observations through his telescope, does not mention Copernican heliocentrism, a theory that placed the Sun at the center of the universe. Nevertheless, Galileo believed in the Copernican theory.^[3]

Galileo also developed a method of determining longitude based on the timing of the orbits of the Galilean moons.

A Chinese historian of astronomy, Xi Zezong, claims that Chinese astronomer Gan De observed one of Jupiter's moons in 362 BC, nearly 2 millennia earlier than Galileo.^[4]

[change] Name

Galileo called his discovery the Cosmica Sidera ("Cosimo's stars"), in honour of Cosimo II de' Medici (1590–1621), grand-duke of Tuscany from 1609, whose patronage he wanted to secure. At the grand-duke's suggestion, Galileo changed the name to Medicea Sidera ("the Medician stars"), honouring all four Medici brothers (Cosimo, Francesco, Carlo, and Lorenzo). The discovery was announced in the Sidereus Nuncius ("Starry Messenger"), published in Venice in March 1610, less than two months after the first observations.

Other names put forward include 'Principharus, Victipharus, Cosmipharus and Ferdinandipharus', for each of the four Medici brothers, proposed by Giovanni Batista Hodierna, a disciple of Galileo and author of the first ephemerides (Medicaeorum Ephemerides, 1656) Johannes Hevelius called the moons the 'Circulatores Jovis' or 'Jovis Committees', and Jacques Ozanam called them 'Gardes' or 'Satellites' (from the Latin satelles, satellitis, meaning "escorts").

The names that eventually prevailed were chosen by Simon Marius, who claimed to have found the moons at the same time as Galileo: he named them after lovers of the god Zeus (the Greek equivalent of Jupiter): Io, Europa, Ganymede and Callisto, in his Mundus Jovialis, published in 1614.

Galileo steadfastly refused to use Marius's names and invented as a result the numbering scheme that is still used nowadays, in parallel with proper moon names. The numbers run from Jupiter outward, thus I, II, III and IV for Io, Europa, Ganymede and Callisto respectively. Galileo used this system in his notebooks but never actually published it.

The Galilean moons are, in order from closest to Jupiter to farthest away:

Name	Diameter (km)	Mass (kg)	Mean Density (g/cm³)	Semi-major axis (km)	Orbital period (days)
Io	3643	8.93×10²²	3.528	421,800	1.77
Europa	3122	4.8×10²²	3.014	671,100	3.55
Ganymede	5262	1.48×10²³	1.942	1,070,400	7.16
Callisto	4821	1.08×10²³	1.834	1,882,700	16.69

[change] Seeing the moons

All four Galilean moons are bright enough that they could, if they were farther away from Jupiter, be seen without a telescope. They have apparent magnitudes between 4.6 and 5.6 when Jupiter is in opposition with the Sun, and about one unit of magnitude dimmer when Jupiter is in conjunction. The main thing that is hard in observing them is due to the fact that they are very close to Jupiter, and are masked by its brightness. Their maximum angular separations from Jupiter are between 2 and 8 minutes of arc, close to the limit of human visual acuity. Ganymede and Callisto, at their maximum separation, are the likeliest targets for possible naked-eye observation. The easiest way to observe them is to cover Jupiter with an object, e.g. a tree limb or a power line that is perpendicular to the plane of moons' orbits.

[change] Notes

↑ Galilei, Galileo, Sidereus Nuncius. Translated and prefaced by Albert Van Helden. Chicago & London: University of Chicago Press 1989, 14-16.
↑ Galilei/Helden, 15-16.
↑ Galilei/Helden, 15-16.
↑ Xi Zezong, "The Discovery of Jupiter's Satellite Made by Gan De 2000 years Before Galileo," Chinese Physics 2 (3) (1982): 664-67.

[change] See also

List of Jupiter's moons

[change] Other websites

Animation of Galileo's observation, march 1613

Moons of Jupiter
Listed in increasing distance from Jupiter. Temporary names in italics.
Amalthea group	Metis · Adrastea · Amalthea · Thebe
Galilean moons	Io · Europa · Ganymede · Callisto
	Themisto
Himalia group	Leda · Himalia · Lysithea · Elara · S/2000 J 11
	Carpo · S/2003 J 12
Ananke group	Ananke · Praxidike · Harpalyke · Iocaste · Euanthe · Thyone (core) Euporie · S/2003 J 3 · S/2003 J 18 · Thelxinoe · Helike · Orthosie · S/2003 J 16 · Hermippe · Mneme · S/2003 J 15 (peripheral)
Carme group	S/2003 J 17 · S/2003 J 10 · Pasithee · Chaldene · Arche · Isonoe · Erinome · Kale · Aitne · Taygete · S/2003 J 9 · Carme · S/2003 J 5 · S/2003 J 19 · Kalyke · Eukelade · Kallichore
Pasiphaë group	Eurydome · S/2003 J 23 · Hegemone · Pasiphaë · Sponde · Cyllene · Megaclite · S/2003 J 4 · Callirrhoe · Sinope · Autonoe · Aoede · Kore
	S/2003 J 2

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See also: List of solar system objects