Lifeboat Foundation: Safeguarding Humanity
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Riding on the shoulders of the Apollo generation, the Artemis missions will pave the way for humans to return to the moon, begin human exploration of Mars, and someday for humanity to reach the edges of our solar system and beyond.

While the exploration of deep space is critical to advancing our understanding of so many unanswered questions about the universe and our place in it, it is equally as critical that the United States government and private industry work together to lead the commercialization of Low Earth Orbit (LEO), and capture the resulting massive new space economy.

As I wrote in The Washington Post recently, the most profound chapter in human history is the industrial revolution happening in LEO, just 250 miles above our heads. We are at a turning point for our civilization, pivoting from 60 years of space exploration to a new era of unprecedented economic activity, manufacturing and growth in space. This burgeoning epoch is called the Orbital Age, and it will drive a new trillion-dollar industry.

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SAN FRANCISCO – EOI Space, the Earth-observation startup formerly known as Earth Observant, attracted its first major customer for ultra-high-resolution imagery drawn from a constellation of satellites destined for very low Earth orbit.

NTT Data, part of the Tokyo-based technology company NTT Group, is acquiring 2.5 percent of EOI plus exclusive rights to sell EOI satellite imagery in Japan, one of the world’s largest Earth-observation markets.

NTT Data is the first partner to sign up for priority access to EOI imagery and services. EOI plans to work with other organizations and governments across the globe, but the NTT Data contract is an important one.

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TAMPA, Fla. — Microsoft said Dec. 14 it is partnering with satellite operator Viasat to find solutions for bringing internet access to 10 million unserved or underserved people within three years.

Viasat is the first satellite operator to join Microsoft’s Airband initiative, which aims to deliver connectivity to a quarter of a billion people by the end of 2025 through a mix of technologies.

Microsoft set up Airband in 2017 and said the initiative had enabled high-speed internet access for more than 51 million people globally — about 20% of its goal.

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Experiments suggest that hydrogen bonding explains why a wet surface can have nearly twice as much friction as a dry surface.

A wet floor poses a risk for slipping, but in certain cases, water added to a surface can increase friction. Researchers have now found that this phenomenon is partly explained by hydrogen bonds between the water and the surface, an effect that was not previously thought to play an important role [1]. The team reached this conclusion by studying the friction between two silicon surfaces under a range of wetness conditions. The researchers showed that heavy water produces greater friction than normal water—evidence that hydrogen bonding has an influence. The results could lead to a deeper understanding of the effects of humidity on friction.

The earliest friction studies looked at relatively large objects, such as a wood block sliding down an inclined surface. More recent efforts have focused on the nanoscale, exploring the friction forces on needle-like probes. These latter experiments have identified the friction mechanisms that operate at a single microscopic bump, or “asperity,” on a surface. But a missing piece is how to relate the friction at nanoscales to that at macroscales, says Liang Peng from the University of Amsterdam.

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Many of us are guilty of giving up on a game because of a long grind or seemingly insurmountable challenge, but Sony’s latest patent shows the company wants to change that.

Some masochists enjoy the pain of being repeatedly beaten in games like Dark Souls – it’s understandable, overcoming those challenges is a great feeling – but most of us have a breaking point where the power button gets hit and the game just ends up collecting dust on a shelf.

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Biophysist and Biochemist Dr. Maximilian Plach talks about a groundbreaking new technology for editing genes, called CRISPR-Cas9. The tool allows scientists to make precise edits to DNA strands, which could lead to treatments for genetic diseases … but could also be used to create so-called “designer babies.” Max reviews how CRISPR-Cas9 works — and asks the scientific community to pause and discuss the ethics of this new tool. Max has earned his PhD in biophysics and computational biology at the University of Regensburg, Germany. He is now Chief Scientific Officer of 2bind, a dynamic and growing company focused on providing biophysical research services for biotech and pharma industries. It is therefore no wonder that Max closely follows the latest breakthroughs and developments in biotech and biomedical technology. He is a long viewer and listener of TED talks; the more exotic, the better. Or who doesn’t remember the talk about the world’s worst city flags? This talk was given at a TEDx event using the TED conference format but independently organized by a local community.

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Awareness about aging and early symptom of disease can extend life to much more year.

There has been plenty going on here at Lifespan.io, so we thought it was time to give you a little update on what’s been happening.

Longevity Summit

The Longevity Summit 2022 is happening on December 6–7 at the Buck Institute for Research on Aging, and Lifespan.io is an official media partner! As a special bonus to our readers, you can purchase tickets here with a 15% discount using the code LifespanIO.

Continue reading “Raising Awareness that Aging is a Problem Worth Solving” | >

Researchers at the Wyss Institute at Harvard University have engineered the first-ever “Vagina on a Chip” in the world that replicates the human vaginal tissue microenvironment in vitro, Scientific American reported on Wednesday.

It is composed of the human vaginal epithelium and underlying connective tissue cells and it replicates many of the physiological features of the vagina, according to Harvard.

Best of all, it can be inoculated with different strains of bacteria allowing researchers to study their effects on the organ’s health.

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