Can we delay or even reverse the aging process? The scientists at the Sinclair Lab at Harvard Medical School think so, and you can help them find out!
So far the NAD+ Mouse Project by Dr. David Sinclair and his team at Harvard Medical School has raised over $43,265 for an exciting research project that is targeting the aging process. Help us reach $45,000 so we can expand the project even more.
A 4K video tour of the Earth’s moon has been released by NASA, showing off the surface in an extraordinary detail. The footage explores the features of the moon and it is stunning… collected by NASA’s Lunar Reconnaissance Orbiter spacecraft over a period of nine years, the footage is dubbed as “virtual tour of the moon” in a fascinating 4K detail.
Sputnik’s interlocutor has a medallion with a phone number and instructions for what to do if he dies. So it’s highly likely that if he dies he will end up where he and Sputnik have come.
Freeze Your Own Grandma
Danila Medvedev is a 38-year-old futurist, transhumanist and Chairman of the board of the Russian company KrioRus. The company was founded in 2006 and, as you can guess from its name, deals with the question of how to preserve the bodies of dead people for a future awakening.
Posted in robotics/AI
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Are you one of the 30 million users hit by Facebook’s access token breach announced two weeks ago? Here’s how to find out.
Facebook breach saw 15M users’ names & contact info accessed, 14M’s bios too
What happens when a new technology is so precise that it operates on a scale beyond our characterization capabilities? For example, the lasers used at INRS produce ultrashort pulses in the femtosecond range (10-15 s), which is far too short to visualize. Although some measurements are possible, nothing beats a clear image, says INRS professor and ultrafast imaging specialist Jinyang Liang. He and his colleagues, led by Caltech’s Lihong Wang, have developed what they call T-CUP: the world’s fastest camera, capable of capturing 10 trillion (1013) frames per second (Fig. 1). This new camera literally makes it possible to freeze time to see phenomena—and even light—in extremely slow motion.
In recent years, the junction between innovations in non-linear optics and imaging has opened the door for new and highly efficient methods for microscopic analysis of dynamic phenomena in biology and physics. But harnessing the potential of these methods requires a way to record images in real time at a very short temporal resolution—in a single exposure.
Using current imaging techniques, measurements taken with ultrashort laser pulses must be repeated many times, which is appropriate for some types of inert samples, but impossible for other more fragile ones. For example, laser-engraved glass can tolerate only a single laser pulse, leaving less than a picosecond to capture the results. In such a case, the imaging technique must be able to capture the entire process in real time.
