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I just watched the new Netflix series, Apple Cider Vinegar, which tells the story of Belle Gibson, an Australian woman who launched a wellness business based largely on the false claim that she had survived “terminal brain cancer”. It is worth a watch, and overall I feel the writers (this is a fictionalized version, not a documentary) captured the industry of fake […]

The post Apple Cider Vinegar first appeared on Science-Based Medicine.

Fossils and genetics are starting to point to life emerging surprisingly soon after Earth formed, when the planet was hellishly hot and seemingly uninhabitable

Pigmented algae are well adapted to grow on exposed ice in the Arctic as the snow line recedes, raising concerns of a feedback loop that could lead to faster sea level rise

The largest study of its kind has revealed how both genetics and lifestyle play a role in developing certain age-related conditions, such as dementia, lung cancer and heart disease

The weakening of the Atlantic meridional overturning circulation could be bolstering rainfall over the Amazon, reducing the risk it will reach a tipping point

Researchers tested a strategy for developing single-atom catalysts that may help us develop more efficient methods for water purification.

It may be the smallest, shortest chorus dance ever recorded. An international team of researchers observed how electrons, excited by ultrafast light pulses, danced in unison around a particle less than a nanometer in diameter. Researchers measured this dance with unprecedented precision, achieving the first measurement of its kind at the sub-nanometer scale. The synchronized dance of electrons, known as plasmonic resonance, can confine light for brief periods of time. That light-trapping ability has been applied in a wide range of areas, from turning light into chemical energy to improving light-sensitive gadgets and even converting sunlight into electricity. While they've been studied extensively in systems from several centimeters across to those just 10 nanometers wide, this is the first time researchers were able to break the field's 'nanometer barrier.'

Wholemeal bread can be shaped into carbon electrodes that could replace traditional metal conductors in electrical devices

Biologists identified a series of “hard steps” on the journey from abiogenesis – that life evolved naturally from non-living matter – to modern civilisation. These steps, such as the evolution of multi-cellular organisms or even language make the stark suggestion that intelligent life is highly improbable! Instead, the researchers propose that human-like life could be a natural outcome of planetary evolution, increasing the likelihood of intelligent life elsewhere. 

The hard-steps model of the evolution of life suggests that the development of complex life depends on a series of highly improbable events, or “hard steps,” that must occur in a specific order. Each step marks a major evolutionary transition—such as complex cells, multicellularity, and intelligence. These steps are rare and require precise conditions, according to the theory, making complex life an unlikely outcome. This model explains why intelligent life seems so scarce, despite the vast number of potentially habitable planets, as the long timescales for each step contribute to its rarity.

An artist’s conception of Tau Ceti e, a possible ‘exo-Earth’ in the habitable zone. Ph03nix1986/Wikimedia Commons/CCA 4.0

The model was originally developed in 1983 by Brandon Carter, an Australian theoretical physicist. It’s conclusion has now been challenged by a team of scientists including astrophysicists and astrobiologists. They argue that the inhospitable young Earth would have gone through environmental changes and it was these that facilitated the ‘hard-steps.’ An example of this is the requirement for complex animal life on a certain level of oxygen in the atmosphere. Before the atmosphere could sustain the levels of oxygenation it was difficult for complex life to evolve, after the event, the liklihood was for greater. 

A view of Earth’s atmosphere from space. Credit: NASA

In their new study, the researchers suggested that the evolution of humans can be associated to the gradual emergence of “windows of habitability” throughout Earth’s history. These windows are thought to have been influenced by shifts in nutrient availability, sea surface temperatures, ocean salinity, and atmospheric oxygen levels. They explained that, considering all these factors, Earth has only recently become suitable for human life.

The collaborative paper between disciplines was effective due to the learning gained from each other’s fields. It developed a new picture of how life evolved on the Earth. The team plan to test their new model which even questions the ‘hard steps’ theory. They suggest other pieces of work that will help to corroborate – or otherwise – their theory such as the search for biosignatures in exoplanetary atmospheres. They also suggest it would be suitable to test the requirements for the so called ‘hard steps’ and try to understand just how hard they really are. Using unicellular and multicellular forms of life, the team want to explore the impact of specific environmental conditions. 

The team are keen to explore other innovations within multicellular Homo sapiens, photosynthesis and eukaryotic cellular environment. It’s possible that similar innovations may have evolved independently in the past. Although the researchers acknowledge that extinction events may have eradicated such evidence. 

Source : Does planetary evolution favor human-like life? Study ups odds we’re not alone

The post Is Intelligent Life Inevitable? appeared first on Universe Today.

The supermassive black hole at the center of our Milky Way galaxy may not be as voracious as the gas-gobbling monsters that astronomers have seen farther out in the universe, but new findings from NASA’s James Webb Space Telescope reveal that its surroundings are flaring with fireworks.

JWST’s readings in two near-infrared wavelengths have documented cosmic flares that vary in brightness and duration. Researchers say the accretion disk of hot gas surrounding the black hole, known as Sagittarius A*, throws off about five or six big flares a day, and several smaller bursts in between.

The observations are detailed today in The Astrophysical Journal Letters.

“In our data, we saw constantly changing, bubbling brightness. And then boom! A big burst of brightness suddenly popped up. Then, it calmed down again,” study lead author Farhad Yusef-Zadeh of Northwestern University in Illinois said in a news release. “We couldn’t find a pattern in this activity. It appears to be random. The activity profile of this black hole was new and exciting every time that we looked at it.”

Yusef-Zadeh and his colleagues observed Sagittarius A* using JWST’s Near-Infrared Camera, or NIRCam, for a total of 48 hours, broken up into eight- to 10-hour increments over the course of a year. They expected to see flares, but they didn’t expect the black hole’s surroundings to be as active as they are.

The researchers suggest that two separate processes are sparking the light show. The smaller flares may be due to turbulence in the accretion disk, compressing the disk’s hot, magnetized gas. Such disturbances could throw off brief bursts of radiation that Yusef-Zadeh likens to solar flares.

“It’s similar to how the sun’s magnetic field gathers together, compresses and then erupts a solar flare,” he explained. “Of course, the processes are more dramatic because the environment around a black hole is much more energetic and much more extreme.”

The bigger bursts could be due to magnetic reconnection events. That would occur when two magnetic fields collide, throwing off bright blasts of particles that travel at velocities near the speed of light. “A magnetic reconnection event is like a spark of static electricity, which, in a sense, also is an ‘electric reconnection,’” Yusef-Zadeh said.

Another unexpected finding has to do with how the flares brighten and dim when seen in two different wavelengths. Events observed at the shorter wavelength changed brightness slightly before the longer-wavelength events.

“This is the first time we have seen a time delay in measurements at these wavelengths,” Yusef-Zadeh said. “We observed these wavelengths simultaneously with NIRCam and noticed the longer wavelength lags behind the shorter one by a very small amount — maybe a few seconds to 40 seconds.”

Those observations could serve as clues to the physical processes at work in the disk swirling around the black hole. It could be that the particles thrown off by the flares lose energy more quickly at shorter wavelengths than at longer wavelengths. That’s the pattern you’d expect for particles spiraling around magnetic field lines in a cosmic synchrotron.

Now researchers are hoping to get a longer stretch of time on JWST, which should help them reduce the noise in their observations and produce a more detailed picture of what’s going on at the center of our home galaxy.

“When you are looking at such weak flaring events, you have to compete with noise,” Yusef-Zadeh said. “If we can observe for 24 hours, then we can reduce the noise to see features that we were unable to see before. That would be amazing. We also can see if these flares repeat themselves, or if they are truly random.”

In addition to Yusef-Zadeh, the authors of the study in The Astrophysical Journal Letters, “Nonstop Variability of Sgr A* Using JWST at 2.1 and 4.8 ?m Wavelengths: Evidence for Distinct Populations of Faint and Bright Variable Emission,” include H. Bushouse, R.G. Arendt, M. Wardle, J.M. Michail and C.J. Chandler.

The post Webb Space Telescope Tracks Fireworks Around Our Galaxy’s Black Hole appeared first on Universe Today.

For those who missed the memo, UFOs (Unidentified Flying Objects) are now called UAPs (Unidentified Aerospace-Undersea Phenomena). The term UFO became so closely tied to alien spacecraft and fantastical abduction stories that people dismissed the idea, making any serious discussion difficult. The term UAP is a broader term that encompasses more unexplained objects or events without the alien spaceship idea truncating any useful or honest discussion.

While the name change is helpful, it’s just the beginning. We need a way to study UAPs scientifically, and new research shows us how.

Though the idea of alien spacecraft visiting us isn’t always taken very seriously, the effort to document UAP and understand them goes back decades. In current times, governments around the world have made more serious efforts to understand what’s behind the phenomena. Most notably, NASA recently initiated a study into UAP called the Unidentified Anomalous Phenomena Independent Study and released its final report in September 2023.

New research aims to explore past efforts, dispel some misunderstandings, and enable future research into UAP.

The research is titled “The New Science of Unidentified Aerospace-Undersea Phenomena (UAP).” The lead author is Kevin Knuth from the Department of Physics at the State University of New York at Albany. The research is available on the pre-press site arxiv.org.

“After decades of dismissal and secrecy, it has become clear that a significant number of the world’s governments take Unidentified Aerospace-Undersea Phenomena (UAP), formerly known as Unidentified Flying Objects (UFOs), seriously–—yet still seem to know little about them,” the authors write. “As a result, these phenomena are increasingly attracting the attention of scientists around the world, some of whom have recently formed research efforts to monitor and scientifically study UAP.”

Many UAP have good explanations, like this image from the Apollo 16 mission to the moon that shows what may look like a flying saucer. In 2004, NASA said it was the spacewalk floodlight/boom that was attached to the Apollo spacecraft. Image Credit: NASA

The authors review about 20 historical studies, some done by governments and others by private researchers, between 1933 and the present. Countries include the USA, Canada, France, Russia, and China. Their goal is to summarize and clarify the scientific narrative around UAPs. “Studies range from field station development and deployment to the collection and analysis of witness reports from around the world,” the authors write.

The main obstacle to studying UAPs is that they’re neither repeatable nor controllable. Another problem is that witness reports are unreliable, often explained away as natural phenomena, or dismissed outright by citizens, scientists, and governments. This has dissuaded serious discussion and study and left us in “a rather disconcerting state of ignorance,” the authors write.

Ignorance is seldom desirable, though it can sometimes provide a false sense of relief. Being disconcerted is likewise undesirable. What can be done?

“The problem and opportunity that we face today is that the situation has changed dramatically,” according to the authors. We now know that the US Defense Intelligence Agency (DIA) conducted a covert, six-year program called the Advanced Aerospace Threat Identification Program (AATIP) to study UAP. With 50 full-time investigators, the AATIP dwarfed other UAP efforts. The AATIP focused on military-only encounters and considered things like psychic and paranormal phenomena correlated with UAP events. The AATIP created a massive amount of data on UAP that encompassed more than 200,00 cases. (Alarmingly, the effort also produced more than 200 research papers, some over 100 pages long, and none of them have ever been seen by the public or by the US Congress.)

This proves that the effort to study and understand UAP has gained traction and moved from the fringe to the mainstream. It’s a signal that UAP research could see increased funding and resources. According to the researchers, that means there needs to be a coordinated effort. The effort needs to be scientific, and data needs to be shared among researchers.

The geographic distribution of UFO sightings. One of the puzzling things about sightings is that they’re not distributed in any way that makes sense. Does culture play a role? Image Credit: sammonfort3

Enough research has been done to make the next steps clear.

“It is generally agreed that the optimal methodology to study UAP relies on many different types of instruments, spatially separated, to dramatically reduce the possibility of error,” the authors write. “This is the only way in which the scientific community will recognize truly anomalous data.” The authors say that multi-messenger astronomy, in which objects are studied across wavelengths with multiple telescopes, is a good model for the future study of UAP.

Rigor is required for UAP studies and data to be taken seriously. One group arguing in favour of more UAP scientific research is the UAlbany-UAPx Collaboration, an organization that the lead author of this research, Kevin Knuth, is involved with. They developed rigorous definitions of what detections constitute a UAP and recommended that “at least two of each type of sensor and 2+ distinct sensor types” be used in the effort to study UAP.

The future effort to understand UAP must migrate in from the fringes and adhere to scientific standards in other disciplines. “This way, one rigorously quantifies the meaning of extraordinary evidence, in the same way it has been done historically by particle physicists, who have established a very high bar to clear,” the authors write.

The researchers also explain how our burgeoning fleet of satellites could play a larger role in the study of UAP. “UAP researchers are now considering the air and space domains as open-air laboratories, utilizing these vast environments for systematic scientific inquiry,” they write.

Throughout most of history, satellite data has been restricted to large governments and their defence and military organizations. But their monopoly on the data is withering away. Satellite imagery and data are routinely shared with the public and are freely available for scientific use. Coinciding with greater accessibility is greater quality. “Thanks to significant technological advancements and the proliferation of commercial satellite services, access to satellite data has expanded dramatically. In addition, rapid advances in information and communication technologies have opened new avenues for many more actors,” the authors explain.

This image shows one of the NOAA’s Geostationary Operational Environmental Satellites (GOES)–R Series. It’s the Western Hemisphere’s most sophisticated weather-observing and environmental monitoring system. The GOES-R Series provides advanced imagery and atmospheric measurements, real-time mapping of lightning activity, and monitoring of space weather. Could satellites like it be used in the scientific study of UAPs? Image Credit: NOAA

Though current satellites aren’t aimed at studying UAP, their sensors can be used to examine environments near reported UAP. This brings up another parallel between astronomy and UAP. We have telescopes that scan the sky for transients and when they detect one, they send out urgent messages to other telescopes suited for follow-up observations. The same arrangement could work in the study of UAP.

Advancements in science and astronomy can also benefit the study of UAP. Tools such as cloud computing, artificial intelligence (AI), and machine learning (ML) now enable scientists to gather, store, transmit, and analyze data more efficiently than ever before,” the authors write. There’s an ongoing democratization of data sharing that can be leveraged in the study of UAP.

UAP are not one thing. Only a dedicated, serious effort to understand them as they appear can determine if there’s something there deserving of deeper study. The authors argue that a “paradoxical loop of dismissal in mainstream science” is preventing progress. The paper outlines a way to cancel that paradox based on the sound methods of the scientific method.

The problem is that detecting them scientifically requires a very wide net of detectors and significant resources over long periods of time. That, again, parallels how we do other science. “Only long-term, transgenerational research programs, such as enjoyed by many research programs well established and stabilized within academic science now for many decades, can possibly yield the proper data on which a potential resolution to UAP can be founded,” the authors write.

However, we’re not starting from scratch.

“Our aim here is to enable future studies to draw on the great depth of prior documented experience,” the researchers explain.

Research: The New Science of Unidentified Aerospace-Undersea Phenomena (UAP)

The post What Would Actual Scientific Study of UAPs Look Like? appeared first on Universe Today.

Using a novel surface-sensitive spectroscopy method, scientists explored atomic vibrations in crystalline material surfaces near interfaces. The findings illuminate quantum behaviors that play important roles computing and sensing technologies.

Using a novel surface-sensitive spectroscopy method, scientists explored atomic vibrations in crystalline material surfaces near interfaces. The findings illuminate quantum behaviors that play important roles computing and sensing technologies.

Are we putting our faith in technology that we don't fully understand? A new study comes at a time when AI systems are making decisions impacting our daily lives -- from banking and healthcare to crime detection. The study calls for an immediate shift in how AI models are designed and evaluated, emphasizing the need for transparency and trustworthiness in these powerful algorithms.

Researchers have demonstrated a new technique that uses light to tune the optical properties of quantum dots -- making the process faster, more energy-efficient and environmentally sustainable -- without compromising material quality.

Researchers have demonstrated a new technique that uses light to tune the optical properties of quantum dots -- making the process faster, more energy-efficient and environmentally sustainable -- without compromising material quality.

Researchers developed a new system for turning used coffee grounds into a paste, which they use to 3D print objects, such as packing materials and a vase. They inoculate the paste with Reishi mushroom spores, which turn the coffee grounds into a resilient, fully compostable alternative to plastics.

In the world of soft robotics and wearable technology, sheet-based fluidic devices are revolutionizing how lightweight, flexible and multifunctional systems are designed. But with innovation comes challenges, particularly in understanding and controlling failure in these devices. A new study by mechanical engineers explores how programmed failure in heat-sealable, sheet-based systems can be used to protect devices, enable complex sequencing of actions and even streamline control mechanisms.

In the world of soft robotics and wearable technology, sheet-based fluidic devices are revolutionizing how lightweight, flexible and multifunctional systems are designed. But with innovation comes challenges, particularly in understanding and controlling failure in these devices. A new study by mechanical engineers explores how programmed failure in heat-sealable, sheet-based systems can be used to protect devices, enable complex sequencing of actions and even streamline control mechanisms.

The often stereotyped and offensive responses from AI chatbots role-playing as humans can be explained by flaws in how large language models attempt to portray demographic identities