>
Blazing bits transmitted 4.5 million times faster than broadband
'Hell No, We Won't Go!' - Most Americans Would Not Serve If War Broke Out
The Most Censored Subjects On Earth: The Trilateral Commission, Technocracy & Transhumanism
DeSantis Signs Property Rights Bill in Florida That Ends 'Squatting Scam'
Scientists Close To Controlling All Genetic Material On Earth
Doodle to reality: World's 1st nuclear fusion-powered electric propulsion drive
Phase-change concrete melts snow and ice without salt or shovels
You Won't Want To Miss THIS During The Total Solar Eclipse (3D Eclipse Timeline And Viewing Tips
China Room Temperature Superconductor Researcher Had Experiments to Refute Critics
5 video games we wanna smell, now that it's kinda possible with GameScent
Unpowered cargo gliders on tow ropes promise 65% cheaper air freight
Wyoming A Finalist For Factory To Build Portable Micro-Nuclear Plants
High-Speed Railway Progresses Towards 200-mph Dallas-Houston Line
27 Ft-tall 3D-printed Structure Built by New Robot | ICON's Multi-Story Robotic Construction Sys
Ever more sensitive systems are in the works, watching and waiting for wandering dark matter particles to interact with them, and now researchers from the State University of New York at Albany have developed a new dark matter detector using supercooled water.
Contrary to popular belief, it's possible to chill water colder than 0° C (32° F) without it freezing solid. To form ice crystals, water molecules need solid surfaces to cling to. Dirt or other impurities can kickstart that process, and the more ice crystals form, the more surface area there is for new crystals. Under carefully controlled conditions, pure water can stay liquid far below its usual freezing point – a process known as supercooling.