The jack, lantern-like view of Jupiter is a mosaic of images taken by the Gemini North Telescope in Hawaii. These bright spots represent Jupiter’s internal heat escaping through holes in the planet’s huge clouds.
A part of the equatorial region south of Jupiter can be seen in this image taken by Juno’s JunoCam. But it was flipped to show the breadth of Jupiter̵
In this photo taken by Juno, six cyclones remain stable at Jupiter’s South Pole. Recently, a small whirlwind (shown in yellow in the lower right corner) has joined the party.
The artist’s impression of the collision between young Jupiter and the huge protoplanets still forming in the early solar system.
These violent eddies on Jupiter are atmospheric features. The cloud rotates around the circular feature of the jet area.
Is that the dolphin on Jupiter? No, but it certainly looks like one. It is actually a cloud that looks like it is swimming along the cloud belt of the southern temperate zone.
This composite image is derived from data collected by the Juvian Infrared Auroral Mapping (JIRAM) instrument on the Juno Jupiter mission (Juno) conducted by NASA. It shows the center of the earth’s north pole Cyclone and the eight cyclones surrounding it.
The amazing image of Jupiter was captured by NASA’s Juno spacecraft, which is its eighth flight over the natural gas giant.
Algorithm-based zooming and coloring shows the vivid appearance of the big red dot in July 2017.
The big red spot of Jupiter is a storm, with a 10,000-mile-wide cloud in July 2017.
The color enhancement function gives you insight into “big red spots”.
NASA compared its own images of the Earth with images of Jupiter taken by astronomer Christopher Gao.
The artist’s concept shows Jupiter’s polar orbit on NASA’s Juno spacecraft.
This image shows Jupiter’s South Pole, as seen by NASA’s Juno spacecraft from an altitude of 32,000 miles (52,000 kilometers). The oval is characterized by cyclones, with a maximum diameter of 600 miles (1,000 kilometers). Multiple images taken on three tracks using the JunoCam instrument are combined to show all areas of daylight, enhanced color and stereo projection.
A closer view of Jupiter’s cloud obtained by NASA’s Juno spacecraft.
As NASA’s Juno spacecraft approached this huge planet, Jupiter’s North Pole appeared. Juno took a view of Jupiter when he was 437,000 miles (703,000 kilometers) from Earth when he was in the first over-orbit of the 36 orbital flights of the Earth.
Captured on August 27, 2016 by NASA’s Juno spacecraft, this infrared image provides an unprecedented view of Jupiter’s southern aurora. Juno’s unique polar orbit provides the first opportunity to observe this huge gas planet in detail.
Since entering orbit around the planet, NASA’s Juno spacecraft has sent back a picture of Jupiter on the left. This photo was made from some of the first photos taken by JunoCam and shows three of the four largest moons of this huge planet: from left, Io, Europa and Ganymede.
The illustration depicts NASA’s Juno spacecraft entering Jupiter’s orbit. Juno will study Jupiter from the polar orbit, which is about 3,000 miles (5,000 kilometers) from the top of the gas giant’s clouds.
This is Juno’s final view of Jupiter before the onboard instruments are powered off in preparation for orbit. The image was taken on June 29, 2016, when the spacecraft was 3.3 million miles (5.3 million kilometers) from Jupiter.
The Hubble Space Telescope of the National Aeronautics and Space Administration (NASA) captured images of the natural gas giant Jupiter’s aurora. Juno’s measurements support these observations.
The artist’s rendering shows Jupiter orbiting Juno.
In a photo taken by Juno on June 21, 2016, the four largest moons of Jupiter and the gaseous planet-Io, Europa, Ganymede and Calisto were seen. The spacecraft is 6.8 million miles (10.9 million kilometers) from the planet.
Juno made an earth flyby in October 2014. These three photos were taken by the spacecraft’s JunoCam.
Three Lego figurines are flying on the Juno spacecraft. They represent the Roman god Jupiter; his wife Juno discovered the four largest moons of Jupiter on January 7, 1610 Galileo Galilei (Galileo Galilei).
When Juno launched from Cape Canaveral, Florida, on August 5, 2011, Jupiter’s distance from Earth was 445 million miles (716 million kilometers). However, the probe’s total range of 1.74 billion miles (2.8 billion kilometers) reached Jupiter. Fly over the earth to help speed up.
Technicians use a crane to lower Juno to a shelf loaded with space shuttle fuel to perform its mission.
Technicians tested three large solar arrays that power the Juno spacecraft. In this photo taken on February 2, 2011, each solar array is deployed at the Lockheed Martin Aerospace Systems facility in Denver.