Impact events on Jupiter

Jupiter is the largest planet in our Solar System. It has a strong pull of gravitational force. This helps it catch many space objects, like asteroids and comets.

Impacts on Jupiter

Many impact events on Jupiter have been seen. The most famous was when Comet Shoemaker–Levy 9 crashed into Jupiter in 1994. Jupiter often catches comets that orbit the Sun. These comets move in paths that can change. Some go back to orbit the Sun. Others hit Jupiter or become one of its satellites.

Because of its size and place near the inner Solar System, Jupiter helps control where smaller space objects go. Jupiter can lower the number of impacts on Earth from objects coming from the Oort cloud. But it can increase impacts from asteroids and short-period comets.

Jupiter experiences more impacts than any other planet in the Solar System. This has earned it the nickname of the "sweeper" or "cosmic vacuum cleaner" of the Solar System. Scientists believe smaller objects might hit Jupiter many times each year. Bigger objects that leave marks on Jupiter's clouds can strike every few years. Even larger objects would hit Jupiter every few decades.

Scar (dark area near Jupiter's limb) caused by a fragment of Comet Shoemaker–Levy 9

About Jupiter

Main article: Jupiter

A chain of craters on Ganymede, probably caused by a similar impact event. The picture covers an area approximately 190 km (120 mi) across

Jupiter is a gas giant planet with no solid surface. Its atmosphere changes as you go deeper. When comets and asteroids hit Jupiter, they create debris blown around by strong winds. The size of the object that hits Jupiter changes how important the impact is.

We can learn about the past by looking at Jupiter's moons. Space missions like the Voyager missions found chains of craters on moons like Callisto and Ganymede. These craters were likely made when pieces of comets hit the moons. The first known impact on Jupiter was spotted in the 1600s when an astronomer saw a dark spot on the planet.

Impact events

Main article: Comet Shoemaker–Levy 9

Jupiter in ultraviolet (about 2.5 hours after fragment R's impact). The black dot near the top is Io transiting Jupiter.

In 1979, a small space rock hit Jupiter. The Voyager 1 spacecraft saw this happen. It was the first time scientists saw this kind of event.

The most famous event was in 1994. Pieces of Comet Shoemaker–Levy 9 crashed into Jupiter. These pieces had broken apart two years before. Many telescopes and space tools watched. The Galileo spacecraft saw it too. Over several days, many pieces hit Jupiter. This made big dark spots in its clouds. One spot was as wide as Earth!

Since then, more impacts have been seen. In 2009, an amateur astronomer saw a new dark spot on Jupiter. Other impacts were seen in 2010, 2012, and up to 2023. These events help scientists learn about objects that come near our planet. They show how Jupiter can protect our solar system by pulling these objects in.

Notable Jupiter impact events
Event	Date (UTC)	Rough original size (meters)	Latitude (°)	Longitude (°)	Discoverer(s)
Nov 2023 event	2023/11/15 12:41	?	?	?	Kunihiko Suzuki
Aug 2023 event	2023/08/28 16:45	?	+45	128	OASES Survey PONCOTS Survey
Oct 2021 event	2021/10/15 13:24	?	+20	201	Ko Arimatsu
Sep 2021 event	2021/09/13 22:39:30	?	−5.5	105.7	José Luis Pereira
Apr 2020 event	2020/04/10	1-4	?	?	Juno team
Aug 2019 event	2019/08/07 04:07	?	?	?	Ethan Chappel
May 2017 event	2017/05/26 19:25	12	+51	?	Sauveur Pedranghelu
Mar 2016 event	2016/03/17 00:18:33	15	?	?	John McKeon
Sep 2012 event	2012/09/10 11:35:00	30	+2	345	Dan Peterson
Aug 2010 event	2010/08/20 18:22:12	10	+11	?	Masayuki Tachikawa Aoki Kazuo
Jun 2010 event	2010/06/03 20:31:20	13	?	?	Anthony Wesley
Jul 2009 event	2009/07/19 13:30	200–500	−57	55	Anthony Wesley
Jul 1994 Comet Shoemaker–Levy 9	1994/07/16 20:13:16 – 1994/07/22 08:06:16	1800	varies for each fragment		Carolyn Shoemaker Eugene Shoemaker David Levy
Mar 1979 event	1979/03/05 17:45:24	?	?	?	Voyager team

Phenomena associated with the impacts

Time-lapse sequence from the approach of Voyager 1, showing the motion of atmospheric bands and circulation of the Great Red Spot. Recorded over 32 days with one photograph taken every 10 hours (once per Jovian day). See full size video.

When objects hit Jupiter, they create temporary effects that depend on the size and type of the object. Small objects create bright flashes as they enter Jupiter’s atmosphere, but they don’t change the clouds much.

Larger objects, bigger than about 100 meters, can go deeper into Jupiter’s atmosphere. They release a lot of energy, causing sudden heat and bright light. This can create tall plumes that reach up to 1,000 kilometers high in just seconds. These events can also stir up materials from deep inside the planet. After the impact, dark spots may appear where the object hit. These spots can last for days or even months.

Identification of the impacting body

We can learn about objects that hit Jupiter by looking at the changes they cause in the planet’s atmosphere. For example, when Comet Shoemaker–Levy 9 hit Jupiter in 1994, scientists could see the comet before it crashed.

By studying the chemicals left behind, scientists can tell if the object was a comet — which has lots of water and little silicon — or an asteroid. This helps us understand more about the space rocks and comets that move near Jupiter. An impact in 2009 was very important because it might change how we think about the number of space rocks that cross Jupiter’s path. However, sometimes it’s hard to know exactly what these objects are made of.

Main article: Comet Shoemaker–Levy 9

Impact frequency

Jupiter is the largest planet in our solar system. Because it is so big, space rocks hit it more often than smaller planets.

Scientists first thought a comet bigger than half a mile wide might hit Jupiter every few hundred years. But after watching Jupiter closely, we now know impacts happen much more often.

We see that smaller space rocks, about the size of a small building, might hit Jupiter several times a year. Even bigger objects, large enough to leave a mark in Jupiter's clouds for weeks, could strike the planet every few years. These observations help astronomers learn how active our solar system is and how often planets like Jupiter are visited by objects from space.

Main article: Impact events on Jupiter

Image of the sign (visible below as a luminous oval) left following the impact of a comet or asteroid with Jupiter, in July 2009. The image was collected by NASA 's Infrared Telescope Facility at a wavelength of 1.65 μm.

Search campaigns

By watching Jupiter, scientists learn about comets and asteroids. When one hits Jupiter, it can leave dark spots that we can see from Earth. Special cameras and telescopes help us find these marks, even if they are very small.

Historians look at old records from the 1800s to find more clues about past impacts on Jupiter. Scientists also study Jupiter's rings for hints of past collisions, using data from space probes that have visited the planet.

Jupiter as a "cosmic vacuum cleaner"

The crash of Comet Shoemaker–Levy 9 in 1994 showed how Jupiter can act like a "cosmic vacuum cleaner" for the inner Solar System. Because Jupiter is very big and has strong gravity, many small comets and asteroids crash into it. Scientists think that Jupiter helps protect Earth by pulling these objects away.

Some people think that without Jupiter, Earth might have been hit by more dangerous objects from space. This idea is part of a theory called the Rare Earth hypothesis. However, scientists are still learning exactly how Jupiter affects the space around our planet.

Collisions in mass culture

When people saw impacts on Jupiter, they began to worry more about what might happen if something like that hit Earth. Movies like Deep Impact and Armageddon talked about this idea and helped everyone understand it better.

We now know that these kinds of impacts happen more often than we used to think. Thanks to better and cheaper telescopes, everyday stargazers have helped find many of these events.