The iconic feature likely formed at least 190 years ago, making it the longest-lived vortex known in the solar system. A new ...

This image of Jupiter from NASA’s James Webb Space Telescope in July 2022 shows stunning details of ... [+] the majestic planet in infrared light—including the "Great Red Spot." Look at any ...

The Great Red Spot is an anticyclonic storm. It rotates counterclockwise in Jupiter’s southern hemisphere. This storm system ...

Jupiter's Great Red Spot is a swirling storm so big that it could swallow Earth READ MORE: True age of Jupiter's Great Red Spot REVEALED It's a swirling mass of crimson clouds, more than 8,000 ...

(CNN)-- Everything about Jupiter is super-sized, including its colorful, turbulent atmosphere. But there's fresh evidence that one of the planet's most recognizable features, the Great Red Spot ...

Scientists are keen to learn its secrets and Juno provides the key "For hundreds of years scientists have been observing, wondering and theorising about Jupiter's Great Red Spot," Scott Bolton ...

The combination reveals Jupiter's characteristic Great Red Spot - a cyclonic storm large enough to engulf the Earth - in stunning detail. Also visible in the photos is the Great Red Spot's smaller ...

Jupiter is also famous for its incredible storms, the largest of which is the Great Red Spot. The rust-colored storm is an absolute giant, but it’s actually a lot smaller today than it once was.

Autumn brings longer, cooler and clearer nights. Summer’s bright constellations and dense star clouds of the Milky Way give ...

A new study predicts that even though it’s not any less thick, Jupiter’s Great Red Spot is definitely much smaller than 350 years ago. Scientists will compare their modelled estimates to Juno ...

Jupiter's most recognisable feature - its Great Red Spot - is getting smaller. The Great Red Spot is the biggest, and longest-lasting storm in our Solar System, and has been studied from Earth for ...

Jupiter's Great Red Spot There is evidence to suggest that this peculiar marking is the top of a "Taylor column": a stagnant region above a bump or depression at the bottom of a circulating fluid ...