NASA's Juno Spacecraft has unlocked mysteries and has never offered previously viewed views on Jupiter ever since it reached the planet back in July 2016.
The spacecraft offered a different artistic view more similar to something that hangs in an art museum rather than the giant gas plane last week. NASA called the photo "Chaotic Clouds of Jupiter" and said that the color-enhanced image was taken at 10:23 pm. May 23th during Juno's 13th residency flight of the planet.
The image was created by national researchers Gerald Eichstadt and Sean Doran using the JunoCam image.
"The region seen here is somewhat chaotic and turbulent considering the various swirling cloud formations. In general, the darker clouds are deeper in Jupiter's atmosphere, while the light clouds are high," NASA reports.
"The bright clouds are probably ammonia or ammonia and water mixed with sprinkling of unknown chemical ingredients. A light oval in the bottom center protrudes into the scene. This feature appears uniformly white in terrestrial telescope observations."
The Juno Spacecraft was launched in August 2011, arrived in Jupiter in July 2016. Earlier this month, NASA announced the extended mission by July 2021.
Juno has shared a new level of information and image processing about Jupiter with some of the most remarkable findings about the planet's "unpleasant "atmosphere and its famous Great Red Spot.
Some of Juno's achievements include offering humanity's first close-up of Jupiter's Great Red Spot, pointing out that the planet's atmosphere has characteristics unlike anything in the solar system, and that the Great Red Spot storm has shrunk for years As it shrinks, it grows longer.
In July 2017, Juno flew over Jupiter's Great Red Spot and offered humanity his first and closest perception of the storm. The US space organization predicted this achievement by emphasizing that the storm has been in existence for more than 350 years.
Juno was launched in 2011 with the goal of unlocking Jupiter's secrets to helping NASA better understand the solar system and planet's origins. In particular, the main objective of the mission is to try to determine how much water is present in the planet's atmosphere and to measure its composition, temperature, cloud pattern and map its magnetic and gravity fields.