Famed physicist Nikola Tesla wanted to obtain electricity from humidity in the air: decades after his death, the idea could finally be coming to fruition.
Developing Novel DNA-Based Mechano-Technologies For Human Health — Dr. Khalid Salaita, Ph.D. — Emory University
Dr. Khalid Salaita, Ph.D. (https://www.salaitalab.com/salaita) is a Professor of Chemistry at Emory University in Atlanta, Georgia (USA), program faculty in the Department of Biomedical Engineering at Georgia Tech and Emory, program member of Cancer Cell Biology at Winship Cancer Institute, and most recently is the recent winner Future Insight Prize given by Merck KGaA, Darmstadt, Germany (https://www.emdgroup.com/en/research/open-innovation/futurei…aming.html) for his cutting edge work in the area of mechanobiology.
Dr. Salaita earned his B.S. in Chemistry, from Old Dominion University, his Ph.D. in Chemistry from Northwestern University, completed a postdoctoral fellowship in the Department of Chemistry at the University of California, Berkeley, and then started his own lab at Emory University, investigating the interface between living systems and engineered nanoscale materials. To achieve this goal, his group has pioneered the development of tools like molecular force sensors, DNA mechano-technology, smart therapeutics, and nanoscale mechanical actuators to help manipulate living cells.
A controversial new type of electric propulsion system that physicists say defies Newton’s Laws of Motion, known as the Quantum Drive, has secured a spot on a SpaceX rocket and will launch into low Earth orbit (LEO) this October.
Designed by IVO Ltd., an electronics prototyping company, the promising yet controversial Quantum Drive could change the future of space travel and, if proven to work, would potentially rewrite or expand many of the accepted principles of inertia and motion that have existed for centuries.
Newtonian Physics Says creating inertia Without Propellant is Impossible.
“Siri, play gold dust by flux pavilion”
The James Webb Space Telescope detected a cosmic phenomenon known as a kilonova, which can create gold, platinum, and uranium in space.
Entrepreneur and venture capitalist Marc Andreessen is among the many people speaking out about the opportunities and risks of artificial intelligence and the growth of ChatGPT. The comments from Andreessen come as valuations have risen for artificial intelligence stocks.
What Happened: Fresh off his report called “Why AI will save the world,” Andreessen shared more details on the opportunities for artificial intelligence during a recent podcast appearance.
Andreessen argued that AI could save the world, a bold claim that includes looking at the religion of sorts of the AI movement.
Jobs at high-risk of being replaced by AI include construction, transportation and farming, according to a new report.
Nicholas Play they wrote an article for you.
A panel of AI-enabled humanoid robots told a United Nations summit on Friday that they could eventually run the world better than humans.
But the social robots said they felt humans should proceed with caution when embracing the rapidly-developing potential of artificial intelligence.
And they admitted that they cannot – yet – get a proper grip on human emotions.
The debate surrounding the use of AI chatbots and copyright is really starting to heat up.
Case in point, comedian and author Sarah Silverman has filed a lawsuit, alongside two other authors, against OpenAI and Meta for copyright infringement, The Guardian reports.
They’re claiming that OpenAI’s very popular ChatGPT and Meta’s own AI model LLaMA were trained on their books as dataset fodder, without their consent.
Well, not yet because there is a new solution that promises an end to our need of cutting trees. A team of researchers at MIT claims that lab-grown timber can replace deforestation driving products made from real wood. They have developed a technique using which timber can be produced in any shape and size, so for example, if you need a new wooden chair, using the researcher’s technique, you can create it in a lab without cutting a single tree.
Summary: Deep-sleep brain waves could be a significant factor in regulating blood sugar. The research shows that a combination of sleep spindles and slow waves can predict an increase in insulin sensitivity, subsequently lowering glucose levels.
This discovery highlights sleep as a potential lifestyle adjustment to improve blood sugar control and manage diabetes. Furthermore, these deep-sleep brain waves could also be used to predict an individual’s next-day glucose levels, proving more accurate than traditional sleep metrics.