Jupiter

What is Jupiter?	Jupiter is the largest planet in our solar system.
How many moons?	Jupiter has 115 known moons.
Size	Jupiter is 11 times wider than Earth.
Rotation	Jupiter rotates once every 9 hours and 55 minutes.
Composition	Jupiter is made mostly of hydrogen and helium.

Jupiter is the fifth planet from the Sun and the largest in the Solar System. It is a gas giant with a mass nearly 2.5 times that of all the other planets combined. Its size is 11 times that of Earth, making it a very big world. Jupiter has been seen since prehistoric times and shines brightly in our night sky as the third-brightest natural object, after the Moon and Venus.

This giant planet plays an important role in our Solar System. It was the first of the Sun's planets to form, and its early movement helped shape the other planets. Jupiter's atmosphere is mostly hydrogen and helium, with small amounts of other elements and compounds like ammonia and water vapour. The planet looks beautiful, with colorful bands and the famous Great Red Spot, a huge storm larger than Earth.

Jupiter also has many moons—at least 115 moons orbit around it. Its four largest moons, called the Galilean moons—Io, Europa, Ganymede, and Callisto—can be seen with binoculars. Jupiter is surrounded by faint planetary rings, and since 1973, it has been visited by several robotic probes to help scientists learn more about this amazing planet.

Name and symbol

Jupiter was named after the main god in ancient Greek and Roman stories. The Greeks called him Zeus, and the Romans called him Jupiter. In 1976, the International Astronomical Union made "Jupiter" the official name for the planet.

The symbol for Jupiter is a Greek letter zeta with a line through it. The word "Jovian" means anything related to Jupiter, and "jovial" is an old word that means happy, a feeling people thought Jupiter brought in stories about the stars.

Formation and migration

Main article: Grand tack hypothesis

Jupiter is thought to be the oldest planet in our Solar System. It formed just one million years after the Sun and about 50 million years before Earth. Scientists believe Jupiter formed far from the Sun where it was cold enough for water and other gases to freeze into solid pieces. These pieces helped Jupiter grow a solid core before it gathered a thick, gaseous atmosphere.

One popular idea, called the grand tack hypothesis, suggests that Jupiter started forming about 3.5 astronomical units (AU) from the Sun. As it grew, its gravity pulled it closer to the Sun, changing the paths of other young planets. Later, Jupiter and Saturn moved into a special balance, causing them to move farther from the Sun to where they are today. These movements happened over just a few million years and helped make space for Earth and the other inner planets to form.

Physical characteristics

Jupiter is a gas giant. This means it is made mostly of hydrogen and helium. It is the largest planet in our Solar System. Jupiter is about eleven times wider than Earth and has a volume 1,321 times that of Earth. But it is not very heavy for its size because it is less dense than Earth.

Size of Jupiter compared to Earth and Earth's Moon

Jupiter’s atmosphere is mostly hydrogen and helium, like the Sun. It also has small amounts of other gases like water, methane, and ammonia. Jupiter is very massive—about 318 times the mass of Earth. Because it is so big, it affects objects around it.

Jupiter spins very quickly, finishing a full rotation in just under ten hours. This fast spin makes it bulge slightly at the equator. Jupiter does not have a solid surface like Earth. It is made of gas that gets thicker and hotter the deeper you go. Scientists think Jupiter might have a small, dense core deep inside, but most of it is fluid. Jupiter also gives off more heat than it receives from the Sun. This makes it shrink very slowly over time.

One of Jupiter’s most famous features is the Great Red Spot. This is a huge storm larger than Earth that has been swirling for centuries. Jupiter also has many smaller storms and bands of clouds that give it a colorful look. The planet’s strong magnetic field creates a protective area around it for its moons.

Orbital motion and observation

Jupiter and four Galilean moons seen through an amateur telescope

Jupiter is the only planet whose barycentre with the Sun lies outside the Sun. It orbits the Sun at an average distance of 778 million km and completes a full orbit every 11.86 years. Its orbit is nearly circular and tilted slightly compared to Earth's orbit.

Jupiter is usually the fourth-brightest object in the night sky after the Sun, the Moon, and Venus. Depending on its position, it can appear brighter or dimmer to us on Earth. Through a telescope, you can see Jupiter's four large Galilean moons and the cloud belts on its atmosphere. Larger telescopes can even show Jupiter's famous Great Red Spot.

Gravitational domain and influence

Planetary rings

Main article: Rings of Jupiter

Jupiter has a faint planetary ring made of dust. The rings have three parts: a halo, a main ring, and a gossamer ring. The main ring comes from material thrown off by the moons Adrastea and Metis. Thebe and Amalthea probably create the gossamer ring.

Moons

Main article: Moons of Jupiter

Jupiter, taken in infrared light, showing its faint rings, along with two moons – Amalthea and Adrastea, auroras, and atmospheric features.

Jupiter has 111 known natural satellites. The four largest are called the Galilean moons: Ganymede, Callisto, Io, and Europa. These big moons were discovered by Galileo.

Galilean moons

Main article: Galilean moons

The Galilean moons—Io, Europa, Ganymede, and Callisto—are some of the biggest moons in the Solar System. Their paths around Jupiter follow a pattern. This pattern creates heat inside them. This heat makes Io very active with volcanoes and also affects Europa’s surface.

Classification

Jupiter’s moons are sorted into groups based on how they move around the planet. Most inner moons likely formed with Jupiter, while outer moons are thought to be captured asteroids.

Interaction with the Solar System

Jupiter’s strong gravity has shaped the Solar System. It affects the paths of planets and created gaps in the asteroid belt. Jupiter also controls many asteroids that stay near its path around the Sun, called Trojan asteroids. These are named after characters from the Iliad.

Impacts

Main article: Impact events on Jupiter

Jupiter often gets hit by comets and asteroids because of its strong gravity. In July 1994, Comet Shoemaker–Levy 9 crashed into Jupiter and was watched by telescopes around the world.

The Galilean moons compared to the Earth's Moon
Name	IPA	Diameter		Mass		Orbital radius		Orbital period
Name	IPA	km	D_☾	kg	M_☾	km	a_☾	days	T_☾
Io	/ˈaɪ.oʊ/	3,643	1.05	8.9×10²²	1.20	421,700	1.10	1.77	0.07
Europa	/jʊˈroʊpə/	3,122	0.90	4.8×10²²	0.65	671,034	1.75	3.55	0.13
Ganymede	/ˈɡænɪmiːd/	5,262	1.50	14.8×10²²	2.00	1,070,412	2.80	7.15	0.26
Callisto	/kəˈlɪstoʊ/	4,821	1.40	10.8×10²²	1.50	1,882,709	4.90	16.69	0.61

The Galilean satellites Io, Europa, Ganymede, and Callisto (in order of increasing distance from Jupiter) in false colour

Regular moons
Inner group	The inner group of four small moons all have diameters of less than 200 km, orbit at radii less than 200,000 km, and have orbital inclinations of less than half a degree.
Galilean moons	These four moons, discovered by Galileo Galilei and by Simon Marius in parallel, orbit between 400,000 and 2 million km, and are some of the largest moons in the Solar System.
Irregular moons
Himalia group	A tightly clustered group of prograde-orbiting moons with orbits around 11–12 million km from Jupiter
Carpo group	A sparsely populated group of small moons with highly inclined prograde orbits around 16–17 million km from Jupiter
Ananke group	This group of retrograde-orbiting moons has rather indistinct borders, averaging 21.3 million km from Jupiter with an average inclination of 149 degrees.
Carme group	A tightly clustered group of retrograde-orbiting moons that averages 23.4 million km from Jupiter with an average inclination of 165 degrees
Pasiphae group	A dispersed and vaguely distinct retrograde group that covers all the outermost moons

Observation and exploration history

People have watched Jupiter for thousands of years. Ancient Babylonian astronomers studied it, and the Chinese called it the "sui star." They used its movement to help make a calendar with twelve yearly cycles. Later, in the 4th century BC, these observations became what we now know as the Chinese zodiac.

In 1610, Galileo Galilei used a telescope to find Jupiter’s four largest moons, now called the Galilean moons. This was the first time anyone saw moons around a planet besides Earth. Shortly after, another astronomer named Simon Marius also found these moons and named them Io, Europa, Ganymede, and Callisto. These discoveries helped show that the Sun, not Earth, is at the center of our solar system.


Spacecraft	Closest approach	Distance (km)
Pioneer 10	December 3, 1973	130,000
Pioneer 11	December 4, 1974	34,000
Voyager 1	March 5, 1979	349,000
Voyager 2	July 9, 1979	570,000
Ulysses	February 8, 1992	408,894
Ulysses	February 4, 2004	120,000,000
Cassini	December 30, 2000	10,000,000
New Horizons	February 28, 2007	2,304,535

In culture

See also: Jupiter in fiction and Planets in astrology § Jupiter

People have known about Jupiter since ancient times. It is bright enough to see without a telescope, even during the day when the Sun is low. Different cultures gave Jupiter names based on their gods and beliefs.

The Babylonians saw Jupiter as their god Marduk. The Greeks called it Zeus, their chief god, and the Romans called it Jupiter, their god of the sky and thunder. In India, it was named after Brihaspati, the teacher of the gods. In East Asia, it was known as the "wood star" and linked to the idea of the year star because it moves through the zodiac constellations.