Scientists at the University of Warwick have cracked a long-standing problem in air pollution science: how to predict the movement of irregularly shaped nanoparticles as they drift through the air we ...

In 1930, a young physicist named Carl D. Anderson was tasked by his mentor with measuring the energies of cosmic ...

Powered by the new 'TEXTRIX' paradigm, the model delivers industrial-grade PBR textures and geometry through an optimized ...

Close to the sun, the solar wind, a steady stream of charged particles, accelerates until it cannot turn back. During a record pass about 3.8 million miles above the surface, Parker Solar Probe ...

Tezpur University study shows how high-energy electrons alter solar oscillations and energy transport, aiding understanding ...

UNTIL now, the scientific community has lacked a method for globally observing the vertical motion of cloud and precipitation ...

Diamond quantum nanoprobes detect immune cell inflammation by sensing electric charge shifts, opening a new path for ...

A neutrino slammed into Earth in 2023 with so much energy that it looked almost unreal. The particle carried about 220 ...

Thousands of satellites that disintegrate upon re-entry release aluminum into the atmosphere, disrupting polar winds and the ...

One type of friction can waste energy even when two perfectly smooth surfaces move against each other, but researchers are ...

If you don’t have laser dust illumination, you’re doing it wrong.

A pair of US researchers have developed a new model to tackle a deceptively simple problem: how a small block of ice melts while floating in calm water. Using an advanced experimental setup, Daisuke ...