Jupiter’s Cosmic Wonders Unveiled by Juno: From Swirling Clouds to a Mysterious Core

NASA’s Juno spacecraft, on its highly elliptical orbit around Jupiter, has completed over 70 close flybys, revealing the gas giant’s secrets. A 2017 image captured from below Jupiter’s equator shows horizontal cloud bands transforming into spectacular swirling vortices and intricate patterns, with a "string of pearls" array of white oval cloud formations near the equator. These views challenge all prior conceptions of Jupiter’s atmospheric dynamics.

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Juno’s Revelations: A World Beyond Surface Storms

Juno’s data confirms Jupiter’s weather systems plunge thousands of kilometers below the cloud tops, far deeper than previously thought. The spacecraft’s gravity measurements hint at a massive, "squishy" core—likely a mix of dense fluids rather than a solid mass—and its magnetic field displays dramatic regional variations, with some poles stronger than others.

 

"A key surprise is how Jupiter’s interior flows interact with its magnetic field," says Dr. Scott Bolton, Juno’s principal investigator. "The planet’s core isn’t a static lump but a dynamic system shaping its global properties."

Juno’s Inevitable Destiny: A Fatal Dive into Jupiter’s Atmosphere

Scheduled to operate until 2025, Juno will eventually execute a controlled descent into Jupiter’s atmosphere, disintegrating to prevent contamination of its potentially habitable moons. The mission’s legacy extends beyond stunning imagery: it has rewritten models of gas giant formation, shown how deep storms influence planetary rotation, and provided clues to Jupiter’s role in shaping the solar system’s history.

 

As Juno continues its final orbits, each flyby adds to a dataset that may one day help scientists understand if other gas giants in the galaxy harbor similar complexities. For now, its images of Jupiter’s roiling clouds serve as a reminder of the cosmos’ boundless ability to astonish—even in our own cosmic backyard.

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