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Category: biological – Page 126

Amazingly, nacre has the rigidity of a stiff material and durability of a soft material, giving it the best of both worlds,” he explains. “It’s made of stiff pieces of chalk-like matter that are layered with soft proteins that are highly elastic. This structure produces exceptional strength, making it 3,000 times tougher than the materials that compose it.

Scientists from McGill University develop stronger and tougher glass, inspired by the inner layer of mollusk shells. Instead of shattering upon impact, the new material has the resiliency of plastic and could be used to improve cell phone screens in the future, among other applications.

While techniques like tempering and laminating can help reinforce glass, they are costly and no longer work once the surface is damaged. “Until now there were trade-offs between , toughness, and transparency. Our is not only three times stronger than the normal glass, but also more than five times more fracture resistant,” says Allen Ehrlicher, an Associate Professor in the Department of Bioengineering at McGill University.

Nature as master of design

Continue reading “Unbreakable glass inspired by seashells” | >

Bill Andrews gives us the simplest definition of aging as well as what he thinks to be accomplished to really admit aging has been cured.

This is an excerpt of a presentation he made last year at the NHIMA. See the description of the video for details.

Longevity scientist Dr. Bill Andrews, PhD in Molecular Biology and President and CEO of Sierra Sciences, describes in few words and images what aging is.

Continue reading “Bill Andrews on age reversal and the Betty White Test (videoclip con S/T en Español)” | >

Circa 2011 o,.o Foglet bodies around the corner sooner than we think 🤔

Could living things that evolved from metals be clunking about somewhere in the universe? Perhaps. In a lab in Glasgow, UK, one man is intent on proving that metal-based life is possible.

He has managed to build cell-like bubbles from giant metal-containing molecules and has given them some life-like properties. He now hopes to induce them to evolve into fully inorganic self-replicating entities.

“I am 100 per cent positive that we can get evolution to work outside organic biology,” says Lee Cronin (see photo, right) at the University of Glasgow. His building blocks are large “polyoxometalates” made of a range of metal atoms – most recently tungsten – linked to oxygen and phosphorus. By simply mixing them in solution, he can get them to self-assemble into cell-like spheres.

Continue reading “Life-like cells are made of metal” | >

I believe if superintelligence can be digitized into computer code then essentially a microchip could send electrical impulses to one’s brain noninvasive like the microchip that heals from Ohio state and then superintelligence could be attained and the biological wetware could be easily acquire the biological singularity. Much like the moto that Apple has all things digital a new superintelligence attribute could uploaded and the human could evolve or gene edit from a smartphone also the impulse could be non invasive like low level electrical impulse sending data to the brain using existing hardware. We could be as advanced as any exterrestial civilization in a couple keystrokes using existing hardware.

Popular expectations for the future are helplessly colored by present trends. The assumption is always that whatever’s going on now can be safely extrapolated into the future along a linear (or, per Kurzweil, logarithmic) curve. So it was that during the space race, baby boomers took for granted that we’d have fully colonized the solar system by the year 2000.

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I tried to warn them.-Elon Musk.

Elon Musk has warned humanity many times about the dangers of superhuman AI. He thinks the advent of digital superintelligence will bring about profound changes to human civilization. Elon Musk thinks the technological singularity could either be super beneficial or it could be terrible for our society. Elon said that no one knows for sure the impact superhuman AI will have on our world but that one thing is for certain: We will not be able to control it. He thinks artificial intelligence will be used as a weapon and warns that the lack of AI regulation could mean it’s already too late for humanity.

Elon Musk now has adopted a “fatalistic” attitude towards the AI control problem because he feels that nothing is being done to try to mitigate the negative effects of future AI systems.

Continue reading “I Tried Warning Them — Elon Musk on Superhuman AI” | >

Circa 2018 Imagine waste turned into gold.

No other life form on our planet has infiltrated every environment as successfully as the minuscule single cells of bacteria. Amongst their many roles in life on Earth, it turns out some of these microbes are also experts at purifying precious metals.

An international team of researchers has figured out how one metal-gobbling bacterium, Cupriavidus metallidurans, manages to ingest toxic metallic compounds and still thrive, producing tiny gold nuggets as a side-effect.

Just like many other elements, gold can move through what’s known as a biogeochemical cycle — being dissolved, shifted around, and eventually re-concentrated in Earth’s sediment.

Continue reading “These Bacteria Digest Toxic Metals And Poop Out Tiny Gold Nuggets” | >

In this podcast, I have invited Daniel Jue, one of the youngest Entrepreneurs of the field of AGI. Daniel is an Independent Artificial General Intelligence researcher at Cognami in the US. He has worked supporting the US Department of Defense, including Data Fusion and analytic development for DARPA, the Defense Advanced Research Projects Agency, whose mission is to prevent technological surprise by potential adversaries. In addition he worked with scientists and engineers at IronNet CyberSecurity, a startup with DARPA and NSA heritage who have recently gone public. In March of 2,021 Daniel took on full time AGI research, drawing upon the fields of Computer Science, Neuroscience, Philosophy and Psychology. Some of his major influences have been Jacques Pitrat’s CAIA (An Artificial AI Scientist) project, Jean Piaget’s childhood development theories and Spiking Neural Networks. He sees a generalizable substrate at the basis for AGI, where engineers design the “physics” in which intelligent behavior could emerge.

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Continue reading “Will AGI incorporated machines ever become Conscious? | The SCI-AI Podcast Ep. 10 — Daniel Jue” | >

Hey it’s Han from WrySci HX talking about a really interesting concept — the world’s first biological gaming console that uses nanopore technology to detect molecules, and turn these readouts into games! It’s called the Demonpore 64! More below ↓↓↓

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Continue reading “Can Video Games Defeat Aging? World’s First Scientific Gaming Console: Demonpore 64” | >