While Io, the most volcanically active moon in the solar system, appears completely dry and devoid of water ice, its neighbor ...

Unlike earlier studies, which often examined chemistry and atmospheric motion separately, the new simulations combined both.

What processes were responsible for Jupiter’s formation? This is what a recent study published in Scientific Reports hopes to address as an international pair of scientists investigated the physical, ...

Jupiter harbors more oxygen than the sun, a new study finds, giving astronomers a crucial clue about how our solar system's ...

A peculiar class of meteorites has offered scientists new clues about when the planet Jupiter took shape and wandered through the solar system. Scientists have theorized for years now that Jupiter ...

Four and a half billion years ago Jupiter rapidly grew to its massive size. Its powerful gravitational pull disrupted the orbits of small rocky and icy bodies similar to modern asteroids and comets, ...

Scientists have measured that Jupiter releases more internal heat than it absorbs from the Sun, based on observations of its structure, rotation, and atmospheric behavior.

New calculations reported by Live Science indicate Jupiter was once much larger and is still contracting as it cools, offering constraints on early solar system conditions.

While Io, the most volcanically active moon in the solar system, appears completely dry and devoid of water ice, its neighbor ...