[ad_1]
This jack-o-lantern-style view of Jupiter is a mosaic of images taken through the Gemini North telescope in Hawaii. The bright spots represent Jupiter’s internal heat escaping from the holes in the planet’s huge clouds.
In this image it is possible to capture a portion of Jupiter’s southern equatorial region captured by Juno’s JunoCam sensor. However, it is rotated to show the width of Jupiter’s atmosphere, with the left and right poles, not top to bottom.
In this image captured by Jun, the six cyclones remain stable at Jupiter’s south pole. A small cyclone recently joined the party, yellow in the lower right corner.
The artist’s impression of the collision of young Jupiter with a massive protoplanet still forming in the morning solar system.
These dramatic beliefs about Jupiter are atmospheric elements. Clouds revolve around a circular object in the current flow area.
Is it a dolphin on Jupiter? No, but it certainly looks like that. It is actually a cloud that appears to be swimming through the cloudy zones along the southern temperate zone.
This composite image, derived from data collected by the Jovian Infrared Auroral Mapper (JIRAM) aboard NASA’s Juno mission to Jupiter, shows the central cyclone at the planet’s north pole and the eight cyclones surrounding it.
This stunning image of Jupiter was captured by NASA’s Juno spacecraft during the gas giant’s eighth flight.
Algorithmic scaling and coloring reveal a vivid look at the Great Red Spot in July 2017.
Jupiter’s great red spot is a 10,000-mile storm in July 2017.
The color enhancements offer a detailed look at the big red spot.
NASA configured this comparison of its own image of Earth with the image of Jupiter created by astronomer Christopher Go.
The artist’s concept shows the orbits of NASA’s Juno space probe on Jupiter.
This image shows the south pole of Jupiter seen from the Juno spacecraft from a height of 52,000 kilometers. The oval elements are cyclones with a diameter of up to 1,000 kilometers. Multiple images taken by the JunoCam in three orbits were combined to view all areas in daylight, enhanced colors and stereographic projection.
An even closer look at Jupiter’s clouds obtained from NASA’s Juno probe.
Jupiter’s Arctic begins to appear as NASA’s Juno probe approaches a vast planet. This view of Jupiter was taken when Juno was 703,000 kilometers away during the first of 36 orbital flights around the planet.
This infrared image provides an unprecedented view of Jupiter’s southern northern lights captured by NASA’s Juno spacecraft on August 27, 2016. Juno’s unique polar orbit offers the first opportunity for detailed observation of this region of the giant planet gaseous.
NASA’s Juno spacecraft has sent back its first photograph of left Jupiter since it entered orbit around the planet. The photo is composed of the first images created by JunoCam and shows three of the four largest moons of the huge planet: Io, Europa and Ganymede from the left.
The illustration shows NASA’s Juno probe entering Jupiter’s orbit. Juno will study Jupiter from a polar orbit located approximately 5,000 kilometers from the cloud tops of the gas giant.
This was the final look at Jupiter that Juno had taken before the onboard instruments were turned off in preparation for orbit. The image was taken on June 29, 2016, while the probe was located 3.3 million miles (5.3 million kilometers) from Jupiter.
NASA’s Hubble Space Telescope has captured images of Jupiter’s auroras at the gas giant’s poles. The observations were supported by measurements made by Juno.
This artist rendition depicts Juno in orbit around Jupiter.
Jupiter and the four largest moons of the gas planet – Io, Europa, Ganymede and Callisto – can be seen in a photo taken by Juno on June 21, 2016. The spacecraft was located 10.8 million kilometers from the planet.
Juno flew around the Earth in October 2014. The three images were taken by the JunoCam spaceship.
Three figures of the legion fly aboard the spaceship Juno. They represent the Roman god Jupiter; his wife Juno; and Galileo Galilei, a scientist who discovered the four largest moons of Jupiter on January 7, 1610.
When Juno was launched from Cape Canaveral, Florida on August 5, 2011, Jupiter was 716 million kilometers from Earth. However, the spacecraft covered a total distance of 2,800 million kilometers from Jupiter. fly around the Earth to increase speed.
The technicians used a crane to lower Juno to a stand where the spaceship was loaded with fuel for its mission.
Technicians are testing three huge solar panels that power the Juno probe. In this photo taken on February 2, 2011, each solar field is developed at the Lockheed Martin space systems facility in Denver.
Source link
