"It really shows how much we still have to learn about planets, even in our own solar system." The post There’s Something ...

Using data from NASA's Juno spacecraft, Weizmann Institute of Science researchers make most precise measurement to date, say ...

New simulations suggest Jupiter holds far more water than once thought, reshaping ideas about how the largest planet formed.

Jupiter’s swirling storms have concealed its true makeup for centuries, but a new model is finally peeling back the clouds.

For over 50 years, we thought we knew the size and shape of Jupiter, the solar system's largest planet. Now, Weizmann ...

An atmospheric study reveals unexpected findings about our largest neighboring planet and the structure of its deep atmosphere.

The solar system’s most giant planet is slightly less of a giant than scientists once thought. Jupiter, a world that is so ...

Combined chemical and hydrodynamic modeling offers a powerful tool beyond Jupiter. Scientists can apply similar techniques to Uranus, Neptune, and gas rich exoplanets. Such planets remain difficult to ...

Spectacular clouds swirl across the surface of Jupiter. These clouds contain water, just like Earth's, but are much denser on the gas giant—so thick that no spacecraft has been able to measure exactly ...

NASA’s Juno spacecraft peered deep beneath Jupiter’s thick cloud cover to offer new insights into one of the solar systems most long lived weather patterns. Data from the mission launched 14 years ago ...

NASA's James Webb Telescope has captured auroras on Jupiter that have hundreds of times more energy than those here on Earth. Jupiter's auroras are like the "Northern Lights, but way bigger!" NASA ...

Jupiter’s atmosphere is a dynamic laboratory where complex interactions between rapid rotation, deep internal convection, and magnetic forces produce a rich tapestry of weather phenomena. Chief among ...