Space & Innovation

Top 10 Things You Didn't Know About Jupiter

One of the goals of the upcoming Juno mission to Jupiter is to gather data to learn if the planet has a dense core. What other surprises might Jupiter have in store for us?

<p>NASA<span></span></p>


Jupiter may be the solar system's Goliath, with more than twice as much material as all its sibling planets combined, but its got a small tilt. Its relatively puny 3.13 degree axial tilt (compared to Earth's 23.5-degree pitch, for example) means Jupiter doesn't experience much in the way of seasons.

Image: Powerful aurora, year-round. Credit: NASA/ESA/STSci


No one gets credit for discovering Jupiter, the fourth brightest object in the night sky after the sun, the moon and Venus. According to May, 1974 paper published in the Philosophical Transactions of the Royal Society of London (which calls itself the world's first science journal), observations of Jupiter date back to Babylonian sky-watchers 2,700 or so years ago. Galileo Galilei is credited with discovering four large moons circling Jupiter in 1610, the first objects found to orbit another planet. Jupiter's moon count currently numbers 67.

Image credit: NASA

The gravitational warping of space caused by Jupiter's extreme mass affects the orbits of other planets and other celestial bodies in the solar system. Jupiter has been referred to as the solar system's vacuum cleaner because its gravitational well catches comets and other bodies coming in from the outer solar system. In 1994, astronomers for the first time witnessed a collision between objects in the solar system, observing more than 20 fragments from the doomed comet Shoemaker-Levy 9 smashing into Jupiter.

Photo credit: H. Hammel/MIT/NASA


Jupiter has been visited by eight spacecraft, though only Galileo -- and soon Juno -- has gone into obit. Galileo carried a secondary spacecraft that plunged into Jupiter's atmosphere on Dec. 7, 1995, relaying data for 58 minutes before succumbing to the high pressure and temperature.

Artist rendering of Juno flying over Jupiter's north pole. Credit: NASA/JPL-Caltech

One of Jupiter's most prominent features is a huge storm located about 22 degrees south of the planet's equator. The so-called "Great Red Spot" was first observed through telescopes on Earth in the 17th century. NASA's Voyager spacecraft relayed the first close-up images of the storm as it approached Jupiter in 1979.

Photo credit: NASA


The magnetic field of Jupiter is the largest structure in the solar system after the heliosphere itself, extending more than 4 million miles in the direction of the sun and almost to the orbit of Saturn. Jupiter's magnetosphere is nearly 20,000 times stronger than Earth's. Like Earth's, Jupiter's magnetosphere traps and speeds up particles, which produce radiation belts similar but thousands of times stronger than the Van Allen belts. To protect Juno's instruments from the radiation, its sensitive electronic instruments are housed in a 400-pound titanium box.

Photo credit: NASA

Jupiter has the shortest day of any planet in the solar system, completing a rotation in a little less than 10 hours. Located about five times farther away from the sun than Earth, Jupiter takes almost 12 years to cycle around the sun.

Photo credit: NASA, ESA, and E. Karkoschka (University of Arizona)


Beneath Jupiter's massive atmosphere, which is mostly made of hydrogen, are layers of compressed hydrogen gas, liquid metallic hydrogen and possibly a core of ice, rock and metals. Determining if Jupiter has a dense core is one of the goals of the Juno mission.

Image: Three-dimensional visualization of Jupiter's cloud decks. Credit: Galileo Project/JPL/NASA


Jupiter currently orbits about five times farther away from the sun than Earth, but it may not have always been there. Some scientists suspect Jupiter may have migrated into the inner solar system early in its history, destroying a first-generation family of planets before retreating into its current orbit. One of Juno's goals is to measure how much water Jupiter contains, information scientists can use to figure out where Jupiter formed.

Photo credit: NASA/JPL/Space Science Institute

Most of the material left over after the sun's formation some 4.6 billion years ago ended up as part of Jupiter. Scientists aren't sure why, but they expect data relayed over the next 20 months from the Juno spacecraft will help piece together the story of how our solar system -- and others elsewhere in the galaxy -- evolved.

Image: Artist impression of a young planetary system. Credit: STSci