The odd atmosphere of a fledgling exoplanet is causing astronomers to question leading theories of how planets form.

Additionally, rocket propellants containing chlorine-based compounds deplete the ozone layer. This leads to higher exposure ...

A new study published in the journal Atmospheric Chemistry and Physics reveals a 17-year delay in the projected recovery of ...

A promising new study suggests that Earth's ozone layer could be back on track to a full recovery after four years of ...

The researchers calculated the maximum size for a hollow planetoid without collapsing under its own weight—no larger than one-tenth of Earth's radius—making it more likely to be classified as a minor ...

BUFFALO, N.Y. — Could tiny primordial black holes, formed in the earliest moments of our universe, be lurking inside asteroids or even beneath our feet? A provocative new study suggests an innovative ...

Reaching the geothermal energy far beneath our feet will require digging further into the Earth's crust than ever before. Beneath our feet is an almost limitless source of energy, but while a few ...

Regional variability makes the problem of accurately predicting how weather patterns across the globe will change in a warmer ...

The study calculated how large a hollow planetoid could be without collapsing in on itself, and the likelihood of a primordial black hole passing through an object on Earth. (If you're worried ...

Alternatively, a faster primordial black hole might leave behind straight tunnels large enough to be visible by a microscope if passing through solid material, including material right here on Earth. ...

Beneath our feet is an almost limitless source of energy, but while a few lucky locations have geothermal heat close to the surface, the rest of the world will need to dig a lot deeper. The ...