Lifeboat Foundation: Safeguarding Humanity
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Blog – Page 1442

Land subsidence is overlooked as a hazard in cities, according to scientists from the University of East Anglia (UEA) and Virginia Tech. Writing in the journal Science, Prof Robert Nicholls of the Tyndall Center for Climate Change Research at UEA and Prof Manoochehr Shirzaei of Virginia Tech and United Nations University for Water, Environment and Health, Ontario, highlight the importance of a new research paper analyzing satellite data that accurately and consistently maps land movement across China.

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Scientists in Cambridge University suggest molecules, vital to the development of life, could have formed from a process known as graphitization. Once verified in the laboratory, it could allow us to try and recreate plausible conditions for life’s emergence.

How did the chemicals required for life get there? It has long been debated how the seemingly fortuitous conditions for life arose in nature, with many hypotheses reaching dead ends. However, researchers at the University of Cambridge have now modeled how these conditions could occur, producing the necessary ingredients for life in substantial quantities.

Life is governed by molecules called proteins, phospholipids and nucleotides. Past research suggests that useful molecules containing nitrogen like nitriles—cyanoacetylene(HC3N) and (HCN)—and isonitriles—isocyanide(HNC) and methyl isocyanide(CH3NC)—could be used to make these building blocks of life. As of yet though, there has been no clear way to make all of these in the same environment in substantial amounts.

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Seven hundred million years ago, a remarkable creature emerged for the first time. Though it may not have been much to look at by today’s standards, the animal had a front and a back, a top and a bottom. This was a groundbreaking adaptation at the time, and one which laid down the basic body plan which most complex animals, including humans, would eventually inherit.

The inconspicuous animal resided in the ancient seas of Earth, likely crawling along the seafloor. This was the last common ancestor of bilaterians, a vast supergroup of animals including vertebrates (fish, amphibians, reptiles, birds, and mammals), and invertebrates (insects, arthropods, mollusks, worms, echinoderms and many more).

To this day, more than 7,000 groups of genes can be traced back to the last common ancestor of bilaterians, according to a study of 20 different bilaterian species including humans, sharks, mayflies, centipedes and octopuses. The findings were made by researchers at the Centre for Genomic Regulation (CRG) in Barcelona and are published today in the journal Nature Ecology & Evolution.

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Tesla’s Dojo supercomputer represents a significant investment and commitment to innovation in the field of AI computation, positioning Tesla as a key player in shaping the future of neural net hardware.

Questions to inspire discussion.

What is Tesla’s Dojo supercomputer?
—Tesla’s Dojo supercomputer is an innovative approach to training neural networks, potentially surpassing Nvidia in AI computation.

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Cheaper electric vehicles are on the way, and Kia believes it has an advantage. With its own “secret sauce,” Kia is moving to launch a series of affordable EVs in the US.

“We’re ahead of most, and we’re trying to rush out ahead because our technology will be more evolved,” Kia America COO Steve Center told Automotive News.

Kia revealed a new range of low-cost EVs during its first annual EV Day in October, including the EV2, EV3, EV4, and EV5.

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