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Aug 7, 2024

Northrop Grumman spacecraft hitches ride on SpaceX rocket for NASA resupply mission

Posted by in categories: biotech/medical, space travel

The Cygnus spacecraft is filled with nearly 8,200 pounds of supplies, hardware and other critical materials for dozens of scientific and research experiments, according to NASA.

That includes tests for water recovery technology and supplies needed for a process to produce blood and immune stem cells in microgravity. Also included in the payload are materials to study the effects of spaceflight on engineered liver tissue and microorganism DNA, NASA said.

Aug 7, 2024

World’s First True Spaceliner Inching Closer to Launch, ISS Is Its First Target

Posted by in category: space

Work to get the Sierra Space spaceplane ready for its first flight are ongoing at the Kennedy Space Center in Florida, a lot of work still lies ahead.

Aug 7, 2024

Paradigm shifts: positivism, realism and the fight against apathy in the quantum revolution

Posted by in category: quantum physics

Jim Baggott reviews Escape from Shadow Physics: the Quest to End the Dark Ages of Quantum Theory by Adam Forrest Kay.

Aug 7, 2024

Astonishing Nuclear Breakthrough Could Rewrite the Fundamental Constants of Nature

Posted by in categories: particle physics, space

Using a laser to raise the energy state of an atom ’s nucleus, known as excitation, can lead to the development of the most precise atomic clocks. This process has been challenging because the electrons surrounding the nucleus are highly reactive to light, necessitating more light to affect the nucleus. UCLA physicists have overcome this by bonding the electrons with fluorine in a transparent crystal, allowing them to excite the neutrons in a thorium atom’s nucleus using a moderate amount of laser light. This achievement paves the way for significantly more accurate measurements of time, gravity, and other fields, far surpassing the current accuracy levels provided by atomic electrons.

For almost half a century, physicists have envisioned the possibilities that could arise from elevating the energy state of an atom’s nucleus with a laser. This breakthrough would enable the replacement of current atomic clocks with a nuclear clock, the most accurate timekeeping device ever conceived. Such precision would revolutionize fields like deep space navigation and communication.

It would also allow scientists to measure precisely whether the fundamental constants of nature are, in fact, really constant or merely appear to be because we have not yet measured them precisely enough.

Aug 7, 2024

A 300-Pound Suit, Rope and No Breaks: How Astronauts Handle Repairs

Posted by in category: futurism

Hi, it’s Rainier Harris in New York. Ever struggled to hire a handyman? Try finding one willing to repair your roof while wearing a 300 pound suit, clinging to a rope about 250 miles above the Earth. But first …

Aug 7, 2024

Scientists created a black hole in lab to test a theory, then it started glowing extremely bright

Posted by in category: cosmology

This simulation created by researchers in the Netherlands might help us know more about mysterious black holes.

Aug 7, 2024

17.6y Younger Biological Age (Blood Test #5 In 2024)

Posted by in categories: biotech/medical, life extension

Join us on Patreon! https://www.patreon.com/MichaelLustgartenPhDDiscount Links/Affiliates: Blood testing (where I get my labs): https://www.ultalabtests.com/.

Aug 7, 2024

Machine Learning Competition Designed to Study Exoplanet Atmospheres

Posted by in categories: information science, robotics/AI, space

Can machine learning be used to advance exoplanet science, and can this be done by non-scientists, as well? This is what Ariel Data Challenge 2024 hopes to address as participants from around the world will compete to develop machine learning algorithms designed to analyze data from space telescopes with the goal of gaining greater insight into exoplanet atmospheres. This competition will be featured at the NeurIPS 2024 machine learning conference and holds the potential to not only advance the field of exoplanets but also enable non-scientists to conduct pioneering research, as well.

“By supporting this challenge, we aim to find new ways of using AI and machine learning to develop our understanding of the universe,” said Dr. Caroline Harper, who is the Head of Space Science at the UK Space Agency. “Exoplanets are likely to be more numerous in our galaxy than the stars themselves and the techniques developed through this prestigious competition could help open new windows for us to learn about the composition of their atmospheres, and even their weather.”

Along with the UK Space Agency, other institutions supporting this challenge include the STFC DiRAC HPC Facility, European Space Agency (ESA), and STFC RAL Space. The competition is named after the ESA’s Ariel Space Mission, which is currently scheduled for launch in 2029 with the goal of using the transit method for identifying more than 1,000 exoplanets.

Aug 7, 2024

Epistemic uncertainty challenges aging clock reliability in predicting rejuvenation effects

Posted by in categories: biotech/medical, life extension

Pain management is an important component of caring for adults with cerebral palsy. However, it’s the least understood comorbidity in the adult cerebral palsy population.

A study led by Mark Peterson, Ph.D., M.S., FACSM, a professor of physical medicine and rehabilitation at University of Michigan Health, found that adults living with had a very high occurrence of pain, with 90% having a pain history and 74% having multiple diagnoses of pain coming from different origins such as the lower back, irritable bowels, joint arthritis and chronic headaches.

The research is published in the journal JAMA Neurology.

Aug 7, 2024

Researchers solve long-standing challenge for piezoelectric materials

Posted by in category: materials

Heat and pressure can deteriorate the properties of piezoelectric materials that make state-of-the-art ultrasound and sonar technologies possible – and fixing that damage has historically required disassembling devices and exposing the materials to even higher temperatures. Now researchers have developed a technique to restore those properties at room temperature, making it easier to repair these devices – and paving the way for new ultrasound technologies.

Piezoelectric materials have many applications, including sonar technologies and devices that generate and sense ultrasound waves. But for these devices to efficiently generate sonar or ultrasound waves, the material needs to be “poled.”

That’s because the piezoelectric materials used for sonar and ultrasound applications are mostly ferroelectric. And like all ferroelectric materials, they exhibit a phenomenon called spontaneous polarization. That means they contain pairs of positively and negatively charged ions called dipoles. When a ferroelectric material is poled, that means all of its dipoles have been pulled into alignment with an external electric field. In other words, the dipoles are all oriented in the same direction, which makes their piezoelectric properties more pronounced.

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