Lifeboat Foundation: Safeguarding Humanity
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The OSIRIS-REx project made history last year as the first U.S. mission to bring back an asteroid sample from space—and with it came a treasure trove of data. An international collaboration, led by Sandia National Laboratories and including researchers at Los Alamos National Laboratory, has published a study in The Planetary Science Journal that reveals the preliminary findings from the capsule’s reentry.

The return of the OSIRIS-REx capsule was the largest geophysical observation campaign of its kind. “This project was a unique opportunity for us to observe the geophysical signals produced by a meter-sized object traveling at hypersonic speeds,” said Chris Carr, the lead author at Los Alamos National Lab. “There are few chances for scientists to be prepared to collect this type of data that we need to propel scientific inquiry for years to come.”

The campaign involved over 400 sensors, many of which were stationed near Eureka, Nevada along the “loneliest road in America.” Given the size of the project, there were many objectives among the more than 80 collaborators. One team of Los Alamos scientists focused on distributed acoustic sensing (DAS), and the paper as a whole encompasses many methods to obtain data during the capsule’s return.

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The future of wireless technology—from charging devices to boosting communication signals—relies on the antennas that transmit electromagnetic waves becoming increasingly versatile, durable and easy to manufacture. Researchers at Drexel University and the University of British Columbia believe kirigami, the ancient Japanese art of cutting and folding paper to create intricate three-dimensional designs, could provide a model for manufacturing the next generation of antennas.

Recently published in the journal Nature Communications, research from the Drexel-UBC team showed how kirigami—a variation of origami—can transform a single sheet of acetate coated with conductive MXene ink into a flexible 3D microwave antenna whose transmission frequency can be adjusted simply by pulling or squeezing to slightly shift its shape.

The proof of concept is significant, according to the researchers, because it represents a new way to quickly and cost-effectively manufacture an antenna by simply coating aqueous MXene ink onto a clear elastic polymer substrate material.

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In addition to lowering your cholesterol, keeping your brain healthy and improving mental health, new research from the University of Georgia suggests omega-3 and omega-6 fatty acids may help ward off a variety of cancers.

The study relied on data from more than 250,000 people and found that higher…

But most Americans probably aren’t eating enough of these foods to reach the recommended amounts.

That’s why many individuals turn to fish oil supplements. They’re one of the most popular dietary pills on the market and for good reason.

Previous studies suggest omega-3 supplements can reduce the risk of developing high cholesterol and lower the risk of heart disease.

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Researchers have developed a nanoscale sensor that detects lung cancer simply by analyzing the levels of a chemical called isoprene in your breath. The team believes its breakthrough could unlock a non-invasive, low-cost method to catch the disease early, and potentially save a lot of lives.

When the human body breaks down fat in a process called lipolytic cholesterol metabolism, isoprene is released in exhaled breath. As it turns out, a decline in isoprene can indicate the presence of lung cancer. The team, led by researchers at China’s Zhejiang University, leveraged this insight through its work and developed an innovative gas sensing material to create a screening process.

The challenge with spotting biomarkers in breath is that your system needs to be able to differentiate between volatile chemicals, withstand the natural humidity of exhaled breath, and detect tiny quantities of specific chemicals. In the case of isoprene, you’d need sensors capable of detecting levels of the chemical in the parts-per-billion (ppb) range.

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Toyota known for its hybrid innovation, has been cautious with fully electric vehicles (EVs), only launching its first EV, the bZ4X, in 2022.

Solid-state batteries are smaller and more durable, making them well-suited to daily fast charging and capable of carrying additional weight, like extra passengers or cargo. This technology has been difficult to scale up, but Toyota’s strong financial base and reputation for reliability position it uniquely to introduce these advanced batteries to the mainstream.

Historically, Toyota’s innovative, consumer-friendly designs, such as fuel-efficient cars in the 1970s and hybrids in the 1990s, have revolutionized the auto industry. Now, Toyota’s solid-state battery development could do the same, potentially transforming EVs from niche to mainstream by offering greater efficiency, performance, and convenience.

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A trio of research papers from Stanford Medicine researchers and their international collaborators transforms scientists’ understanding of how small DNA circles – until recently dismissed as inconsequential – are major drivers of many types of human cancers.

The papers, published simultaneously in…

Tiny circles called ecDNA are critical in cancer development and drug resistance. An international Stanford Medicine-led team publishes landmark studies detailing new findings and potential therapies.

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Yes, AI and music is here. Its free, and you don’t even have to sing anymore.

Suno AI’s new “Personas” feature, which lets you save unique vocal styles, vibes, and music elements as customizable Personas! With this game-changing tool, you can preserve the exact feel and voice of any track and reuse it in multiple songs. In this video, I’ll walk you through:
#sunoai #aimusicgenerator #sunoaimusic.
- Creating a Persona from any song in your library.
- Customizing Persona names, adding images, and setting privacy options.
- Applying Personas in different genres, from pop to heavy metal.
- Tips on using Personas for various music styles and languages, including Turkish and Hindi songs.
- How to use your own vocals by uploading an audio sample.
- Plus, I’ll give you details on the exciting Timbaland remix contest happening on Suno AI!
Don’t miss this guide if you’re ready to expand your music creation with personalized vocal styles and make the most of Suno AI’s features.
Link to my Persona : https://suno.com/persona/95b06068-6af3-407d-a7c9-f2b4c756c783

Want to hear my original and cover tracks? Check out the links below! If you enjoyed this tutorial, like, subscribe, and let me know in the comments if you want any Personas made public.

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State-of-the-art prosthetic limbs can help people with amputations achieve a natural walking gait, but they don’t give the user full neural control over the limb. Instead, they rely on robotic sensors and controllers that move the limb using predefined gait algorithms.

Using a new type of surgical intervention and neuroprosthetic interface, MIT researchers, in collaboration with colleagues from Brigham and Women’s Hospital, have shown that a natural walking gait is achievable using a prosthetic leg fully driven by the body’s own nervous system. The surgical amputation procedure reconnects muscles in the residual limb, which allows patients to receive “proprioceptive” feedback about where their prosthetic limb is in space.

In a study of seven patients who had this surgery, the MIT team found that they were able to walk faster, avoid obstacles, and climb stairs much more naturally than people with a traditional amputation.

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