You probably learned in high school chemistry class that core electrons don't participate in chemical bonding.
Research suggests some metals’ semicore electrons may be more active on Earth’s surface than previously thought.
A clever mathematical tool known as virtual particles unlocks the strange and mysterious inner workings of subatomic ...
The Weather Network on MSN
How do thunderstorms form and grow into immense weather powerhouses?
The right mix of hot, humid, rising air can produce some of the most powerful weather phenomena on the planet.
MIT's study on lithium intercalation rates offers insights into coupled ion-electron transfer, paving the way for faster ...
Interesting Engineering on MSN
Solar jackpot: Cambridge organic breakthrough helps panels catch more sunlight
By solving a century-old physics problem, the Cambridge collaboration has unlocked a powerful new path toward creating highly ...
Japanese researchers have revealed how weak magnetic fields can instantly control the direction of electrical flow in quantum metals. Quantum metals are materials in which quantum effects, usually ...
As 240-foot-high power lines are set to rise across Sugarloaf, Pennsylvania, longtime residents are fighting eminent domain ...
Researchers explain why weak magnetic fields can instantly control electrical flow direction in these quantum metals.
Deep beneath South Dakota, scientists are closing in on one of the greatest mysteries in the universe — the true nature of dark matter. Using the world’s most sensitive detector, the LUX-ZEPLIN experi ...
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