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Jupiter Up Close Looks Like a Van Gogh Painting (10 Photos)

Juno is NASA’s current mission attempting to understand the descent and evolution of Jupiter. The spacecraft is equipped with a suite of science instruments including several high-tech cameras that have been transmitting incredible images back to Earth for processing and analysis.

Close-up images of the gas monster are awe-striking and the patterns and colours have depicted comparings to van Gogh’s iconic impressionist-style paints. Below you will find 10 images from Jupiter taken by Juno that look like van Gogh himself could have painted.

With the exception of the sun, Jupiter is the most dominant object in the solar system. Because of its enormous size and the fact that it was likely the first of countries around the world to form, and it has profoundly influenced the formation and evolution of the other bodies that orbit our superstar.

After a five-year jaunt that begin in August 2011, NASAa

s Juno mission reached Jupiter in July 2016. Juno will continue to operate within the current budget scheme through July 2018, for a total of 12 science orbits. The team can then propose to extend the mission during the next science evaluation cycle. For more information, visit Juno’s official mission page.

1.

The Juno spacecraft captured this image when the spacecraft was simply 11,747 miles( 18,906 kilometers) from the tops of Jupitera

s clouds a

thata

s roughly as far as the distance between New York City and Perth, Australia. The color-enhanced image, which captures a cloud system in Jupitera

s northern hemisphere, was taken on Oct. 24, 2017 at 10:24 a.m. PDT( 1:24 p.m. EDT) when Juno was at a latitude of 57. 57 degrees( nearly three-fifths of the lane from Jupitera

s equator to its north pole) and performing its ninth close flyby of the gas giant planet.

Because of the Juno-Jupiter-Sun angle when the spacecraft captured this image, the higher-altitude clouds can be seen casting darkness on their surrounds. The behavior is most easily observable in the whitest regions in the image, but also in a few isolated spots in both the bottom and right regions of the image. Citizen scientists Gerald EichstA $? dt and SeA! n Doran processed this image using data from the JunoCam imager.

2.

This enhanced color view of Jupitera

s cloud tops was processed by citizen scientist Bjorn Jonsson using data from the JunoCam instrument on NASAa

s Juno spacecraft. The image highlights a massive counterclockwise revolving storm that appears as a white oval in the gas gianta

s southern hemisphere. Juno acquired this image on Feb. 2, 2017, at 6:13 a.m. PDT( 9:13 a.m. EDT ), as the spacecraft performed a close flyby of Jupiter. When the image was taken, the spacecraft was about 9,000 miles( 14,500 kilometers) from the planet.

3.

A dynamic storm at the southern rim of Jupitera

s northern polar region dominates this Jovian cloudscape, politenes of NASAa

s Juno spacecraft. This blizzard is a long-lived anticyclonic oval named North North Temperate Little Red Spot 1( NN-LRS-1 ); it has been tracked at the least since 1993, and may be older still. An anticyclone is a climate phenomenon where winds all over the blizzard flowing in the direction opposite to that of the flow around individual regions of low pressure. It is the third largest anticyclonic elliptical on countries around the world, typically around 3,700 miles( 6,000 kilometers) long. The colouring varies between red and off-white( as it is now ), but this JunoCam image shows that it still has a pale reddish core within the radius of maximum gale speeds.

Citizen scientists Gerald EichstA $? dt and SeA! n Doran processed this image using data from the JunoCam imager. The image has been revolved so that the top of the image is actually the equatorial regions while the bottom of the image is of the northern polar regions of the planet. The image was taken on July 10, 2017 at 6:42 p.m. PDT( 9:42 p.m. EDT ), as the Juno spacecraft performed its seventh close flyby of Jupiter. At the time the image was taken, the spacecraft was about 7,111 miles( 11,444 kilometers) from the tops of the cloud of the planet at a latitude of 44. 5 degrees.

4.

This image of Jupitera

s iconic Great Red Spot was created by citizen scientist BjAPrn JA3nsson using data from the JunoCam imager on NASAa

s Juno spacecraft. This true-color image offers a natural coloring rendition of what the Great Red Spot and surrounding areas would look like to human eyes from Junoa

s post. The tumultuous atmospheric zones in and around the Great Red Spot are clearly visible.

The image was taken on July 10, 2017 at 07:10 p.m. PDT( 10:10 p.m. EDT ), as the Juno spacecraft performed its seventh close flyby of Jupiter. At the time the image was taken, the spacecraft was about 8,648 miles( 13,917 kilometers) from the tops of the clouds of the planet at a latitude of -3 2.6 degrees

5.

This enhanced-color image of Jupitera

s bands of sun and dark clouds was created by citizen scientists Gerald EichstA $? dt and SeA! n Doran using data from the JunoCam imager on NASAa

s Juno spacecraft. Three of the white oval blizzards known as the a

String of Pearlsa

are visible near the top of the image. Each of the alternating light and dark atmospheric bands in this image is wider than Earth, and each furies around Jupiter at hundreds of miles( kilometers) per hour. The lighter areas are regions where gas is rising, and the darker bands are regions where gas is dropping. Juno acquired the image on May 19, 2017, at 11:30 a.m. PST( 2:30 p.m. EST) from an altitude of about 20,800 miles( 33,400 kilometers) above Jupiter’s cloud tops.

6.

This series of enhanced-color images proves Jupiter up close and personal, as NASAa

s Juno spacecraft performed its eighth flyby of the gas monster planet. The images were obtained by JunoCam.

From left to right, the sequence of images taken on Sept. 1, 2017 from 3:03 p.m. to 3:11 p.m. PDT( 6:03 p.m. to 6:11 p.m. EDT ). At the times the images were taken, the spacecraft ranged from 7,545 to 14,234 miles( 12,143 to 22,908 kilometers) from the tops of the clouds of the planet at a latitude scope of -2 8.5406 to -4 4.4912 degrees.

7.

This striking Jovian vista was created by citizen scientists Gerald EichstA $? dt and SeA! n Doran using data from the JunoCam imager on NASAa

s Juno spacecraft. The tumultuous Great Red Spot is fading from Juno’s view while the dynamics bands of the southern region of Jupiter come into focus. North is to the left of the image, and south is on the right.

The image was taken on July 10, 2017 at 7:12 p.m. PDT( 10:12 p.m. EDT ), as the Juno spacecraft performed its seventh close flyby of Jupiter. At the time the image was taken, the spacecraft was 10,274 miles( 16,535 kilometers) from the tops of the clouds of the planet at a latitude of -3 6.9 degrees.

8.

This color-enhanced image of a massive, raging cyclone in Jupitera

s northern hemisphere was captured by NASAa

s Juno spacecraft during its ninth close flyby of the gas giant planet. The image was taken on Oct. 24, 2017 at 10:32 a.m. PDT( 1:32 p.m. EDT ). At the time the image was taken, the spacecraft was about 6,281 miles( 10,108 kilometers) from the tops of the cloud of Jupiter at a latitude of 41. 84 degrees. The spatial scale in this image is 4. 2 miles/ pixel( 6.7 kilometers/ pixel ).

The storm is revolving counter-clockwise with a wide range of cloud altitudes. The darker clouds are expected to be deeper in the atmosphere than the brightest clouds. Within some of the bright a

armsa

of this blizzard, smaller cloud and banks of clouds can be seen, some of which are casting darkness to the right side of this portrait( sunlight is coming from the left ). The bright clouds and their darkness range from approximately 4 to 8 miles( 7 to 12 kilometers) in both thickness and lengths. These appear similar to the small clouds in other bright regions Juno has detected and are expected to be updrafts of ammonia ice crystals possibly mixed with water ice. Citizen scientists Gerald EichstA $? dt and SeA! n Doran processed this image using data from the JunoCam imager.

9.

This image, taken by the JunoCam imager on NASAa

s Juno spacecraft, highlightings a feature on Jupiter where multiple atmospheric condition appear to collide. This publicly selected target is called a

STB Spectre.a

The ghostly bluish streak in all the regions of the right half of the image is a long-lived blizzard, one of the few structures perceptible in these whitened latitudes where the south temperate belt of Jupiter would normally be. The egg-shaped spot on the lower left is where incoming small dark spots make a hairpin turn.

The image was taken on March 27, 2017, at 2:06 a.m. PDT( 5:06 a.m. EDT ), as the Juno spacecraft performed a close flyby of Jupiter. When the image was taken, the spacecraft was 7,900 miles( 12,700 kilometers) from the planet. The image was processed by Roman Tkachenko, and the description is from John Rogers, the citizen scientist who identified the point of interest.

10.

See Jupitera

s southern hemisphere in beautiful detail in this new image taken by NASAa

s Juno spacecraft. The color-enhanced opinion captures one of the white ovals in the a

String of Pearls, a

one of eight massive rotating cyclones at 40 degrees south latitude on the gas monster planet. The image was taken on Oct. 24, 2017 at 11:11 a.m. PDT( 2:11 p.m. EDT ), as Juno performed its ninth close flyby of Jupiter. At the time the image was taken, the spacecraft was 20,577 miles( 33,115 kilometers) from the tops of the clouds of the planet at a latitude of minus 52.96 degrees. The spatial scale in this image is 13.86 miles/ pixel( 22.3 kilometers/ pixel ). Citizen scientists Gerald EichstA $? dt and SeA! n Doran processed this image using data from the JunoCam imager.

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