Menu

Blog

Page 190

Oct 25, 2024

A Giant Hidden Source of Lithium Was Just Discovered in Arkansas

Posted by in categories: government, robotics/AI

Suspended in the relic of an ancient sea beneath southern Arkansas, there may be enough lithium for nine times the expected global demand for the element in car batteries in 2030.

\t\t\t\t\t\t\t\t\t\t\t.

A collaborative national and state government research team trained a machine learning model to predict and map the lithium concentrations of salty water deep within the porous limestone aquifer beneath southern Arkansas, known as the Smackover Formation brines.

Oct 25, 2024

Removal of Russian coders spurs debate about Linux kernel’s politics

Posted by in categories: computing, policy

A two-line comment about “various compliance requirements” spurred questions about sanctions policy and procedure on the Linux kernel mailing list.

Oct 25, 2024

The Coming AI Startup Bust

Posted by in category: robotics/AI

Links:

- The Asianometry Newsletter: https://www.asianometry.com.

Continue reading “The Coming AI Startup Bust” »

Oct 25, 2024

Mysterious 165-Million-Year-Old Minerals Found on Easter Island Defy Plate Tectonics

Posted by in category: futurism

Easter Island consists of several extinct volcanoes. The oldest lava deposits formed some 2.5 million years ago on top of an oceanic plate not much older than the volcanoes themselves. In 2019, a team of Cuban and Colombian geologists left for Easter Island to accurately date the volcanic island. To do so, they resorted to a tried-and-tested recipe: dating zircon minerals. When magma cools, these minerals crystallize. They contain a bit of uranium, which ‘turns’ into lead through radioactive decay.

Because we know how fast that process happens, we can measure how long ago those minerals formed. The team from Colombia’s Universidad de Los Andes, led by Cuban geologist Yamirka Rojas-Agramonte, therefore went in search of those minerals. Rojas-Agramonte, now at the Christian Albrechts-University Kiel, found hundreds of them. But surprisingly, not only from 2.5 million years old, but also from much further back in time, up to 165 million years ago. How could that be?

Oct 25, 2024

‘Halloween Comet’ Tonight: How To Find It On Friday While You Still Can

Posted by in category: space

Comet’s distance from the sun: 75 million miles (121 million kilometers)

Comet’s distance from Earth: 71 million miles (115 million kilometers)

So far, the guiding lights to find the comet have been the bright planet Venus and the bright red star Arcturus. However, as October draws to a close, both are so close to the horizon an hour after sunset that they’re unlikely to be visible. So, instead, use the stars of the Summer Triangle to find the comet. Vega in the constellation Lyra should be easy enough to find above due west and, above it, Deneb in Cygnus.

Oct 25, 2024

Tesla has been testing a robotaxi service in the Bay Area for most of the year

Posted by in categories: Elon Musk, sustainability, transportation

Employees only, for now.

Oct 25, 2024

Space Force Is Tracking New Debris Field After Communications Satellite Breaks Apart

Posted by in category: satellites

This follows the failure of another satellite from the same series that may have been due to a meteoroid impact.

Oct 25, 2024

Webb Telescope Detects Unusual Gas Jets from Centaur 29P

Posted by in categories: evolution, space

Inspired by the half-human, half-horse creatures that are part of Ancient Greek mythology, the field of astronomy has its own kind of centaurs: distant objects orbiting the sun between Jupiter and Neptune. NASA’s James Webb Space Telescope has mapped the gases spewing from one of these objects, suggesting a varied composition and providing new insights into the formation and evolution of the solar system.

Centaurs are former trans-Neptunian objects that have been moved inside Neptune’s orbit by subtle gravitational influences of the planets in the last few million years, and may eventually become short-period comets. They are “hybrid” in the sense that they are in a transitional stage of their orbital evolution: Many share characteristics with both trans-Neptunian objects (from the cold Kuiper Belt reservoir), and short-period comets, which are objects highly altered by repeated close passages around the sun.

Since these small icy bodies are in an orbital transitional phase, they have been the subject of various studies as scientists seek to understand their composition, the reasons behind their outgassing activity—the loss of their ices that lie underneath the surface—and how they serve as a link between primordial icy bodies in the outer solar system and evolved comets.

Oct 25, 2024

New Design Overcomes Key Barrier to Safer, More Efficient EV Batteries

Posted by in categories: energy, sustainability, transportation

Researchers at McGill University have made a significant advance in the development of all-solid-state lithium batteries, which are being pursued as the next step in electric vehicle (EV) battery technology.

By addressing a long-standing issue with battery performance, this innovation could pave the way for safer, longer-lasting EVs. The findings are published in the journal Cell Reports Physical Science.

The challenge lies in the resistance that occurs where the ceramic electrolyte meets the electrodes. This makes the battery less efficient and reduces how much energy it can deliver. The research team has discovered that creating a porous ceramic membrane, instead of the traditional dense plate, and filling it with a small amount of polymer can resolve this issue.

Oct 25, 2024

Researchers Discover Mechanism by which Estrogen can Trigger Fast Neuronal Responses

Posted by in categories: biotech/medical, neuroscience

Estrogen, the major female ovarian hormone, can trigger nerve impulses within milliseconds to regulate a variety of physiological processes. At Baylor College of Medicine, Louisiana State University and collaborating institutions, researchers discovered that estrogen’s fast actions are mediated by the coupling of the estrogen receptor-alpha (ER-alpha) with an ion channel protein called Clic1.

Clic1 controls the fast flux of electrically charged chloride ions through the cell membrane, which neurons use for receiving, conducting and transmitting signals. The researchers propose that interacting with the ER-alpha-Clic1 complex enables estrogen to trigger fast neuronal responses through Clic1 ion currents. The study appears in Science Advances.

“Estrogen can act in the brain to regulate a variety of physiological processes, including female fertility, sexual behaviors, mood, reward, stress response, cognition, cardiovascular activities and body weight balance. Many of these functions are mediated by estrogen binding to one of its receptors, ER-alpha,” said co-corresponding author Dr. Yong Xu, professor of pediatrics—nutrition and associate director for basic sciences at the USDA/ARS Children’s Nutrition Research Center at Baylor.

Page 190 of 12,083First187188189190191192193194Last