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Discovery of a new phase of matter in 2D which defies normal statistical mechanics

Matter and energy from Science Daily Feed - Wed, 09/11/2024 - 8:21am
Physicists have created the first two-dimensional version of the Bose glass, a novel phase of matter that challenges statistical mechanics.
Categories: Science

Unique nanodisk pushing photonic research forward

Matter and energy from Science Daily Feed - Wed, 09/11/2024 - 8:21am
Researchers have succeeded in combining two major research fields in photonics by creating a nano-object with unique optical qualities. Since the object is a thousand times thinner than the human hair, yet very powerful, the breakthrough has great potential in the development of efficient and compact nonlinear optical devices.
Categories: Science

Unique nanodisk pushing photonic research forward

Computers and Math from Science Daily Feed - Wed, 09/11/2024 - 8:21am
Researchers have succeeded in combining two major research fields in photonics by creating a nano-object with unique optical qualities. Since the object is a thousand times thinner than the human hair, yet very powerful, the breakthrough has great potential in the development of efficient and compact nonlinear optical devices.
Categories: Science

Advancing power grounding systems: A novel predictive model for soil resistivity

Matter and energy from Science Daily Feed - Wed, 09/11/2024 - 8:20am
For the design of reliable power grounding systems for critical electrical infrastructure, soil resistivity investigation is crucial. However, soil resistivity depends on various geotechnical properties, necessitating the need for robust assessment methods. In a new study, researchers conducted a comprehensive investigation into the behavior and relationships between soil resistivity and key geotechnical parameters and developed a predictive model based on their findings. This model can lead to cost-effective and more reliable design of grounding systems.
Categories: Science

Carbohydrate polymers could be a sweet solution for water purification

Matter and energy from Science Daily Feed - Wed, 09/11/2024 - 8:20am
Water polluted with heavy metals can pose a threat when consumed by humans and aquatic life. Sugar-derived polymers from plants remove these metals but often require other substances to adjust their stability or solubility in water. Now, researchers report a sugar-like polymer that traps heavy metals within insoluble clumps for easy removal. In proof-of-concept tests, the polymer removed ionic cadmium and lead from river water spiked with these persistent contaminants.
Categories: Science

Cooling positronium with lasers

Matter and energy from Science Daily Feed - Wed, 09/11/2024 - 8:20am
Most atoms are made from positively charged protons, neutral neutrons and negatively charged electrons. Positronium is an exotic atom composed of a single negative electron and a positively charged antimatter positron. It is naturally very short-lived, but researchers have now successfully cooled and slowed down samples of positronium using carefully tuned lasers. They hope this research will help others explore exotic forms of matter, and that such research might unlock the secrets of antimatter.
Categories: Science

Astronomers track bubbles on star's surface in most detailed video yet

Space and time from Science Daily Feed - Wed, 09/11/2024 - 8:20am
Astronomers have captured images of a star other than the Sun in enough detail to track the motion of bubbling gas on its surface. The images of the star, R Doradus, were obtained in July and August 2023. They show giant, hot bubbles of gas, 75 times the size of the Sun, appearing on the surface and sinking back into the star's interior faster than expected.
Categories: Science

Brain-wide decision-making dynamics discovered

Computers and Math from Science Daily Feed - Wed, 09/11/2024 - 8:20am
Neuroscientists have revealed how sensory input is transformed into motor action across multiple brain regions in mice. The research shows that decision-making is a global process across the brain that is coordinated by learning. The findings could aid artificial intelligence research by providing insights into how to design more distributed neural networks.
Categories: Science

Researchers combine the power of AI and the connectome to predict brain cell activity

Computers and Math from Science Daily Feed - Wed, 09/11/2024 - 8:16am
With maps of the connections between neurons and artificial intelligence methods, researchers can now do what they never thought possible: predict the activity of individual neurons without making a single measurement in a living brain.
Categories: Science

Postmortem of the Presidential debate: Trump blew it big time

Why Evolution is True Feed - Wed, 09/11/2024 - 7:45am

There were at least two op-eds in the New York Times in the last few days arguing that if Harris was to win last night’s debate, she could not spend her time attacking Trump but had to show that she had tangible policy proposals for the American people.  Well, Harris did win the debate (I’m not aware of anybody who disagrees with this, including conservative websites like the National Review), but it was not because of her policy proposals. (Fortunately, I managed to stay awake to watch the whole thing.)

The NYT was wrong: Harris won the debate hands down, not by presenting tangible policies (she did mention a few), but by doing what she was told not to do: baiting and attacking Trump. She did it calmly but persistently, to the point where Trump became so baffled and enraged that he simply lost it, becoming unhinged and yes, almost deranged. And when that happened, his narcissism and lying became uncontrollable. In fact, at some points I thought that, like Biden, he had simply lost his ability to think. It seems to me now that Trump is showing signs of age, in a manner different in degree but not in kind from the kind of fogginess that brought down Biden in his last debate with Trump.

If you didn’t see the debate, it’s below.

I suspect that some of Harris’s debate practice involved confecting statements that would unsettle Trump, and, sure enough, they worked, like a red cape shown to a bull.  Perhaps the most effective was Harris’s assertion that people got bored at Trump rallies, which were insubstantial and full of pop culture, and simply left them early.

That was enough to unsettle Trump, who claims that his rallies were, like everything else he does, the greatest in the history of America. And he never recovered his equilibrium.  The lies and misstatements spouted forth like water from a fountain.  There was the statement that Haitians were eating pets in Ohio, the claim that Harris met both Putin and Zelensky and failed to secure a peace (she never met Putin), the false claim that tariffs on foreign goods wouldn’t result in higher prices for consumers, that if was elected he could settle the Ukraine/Russia war before he took office, that Harris was a Marxist, that some Democrats support the execution of children after birth, and so on. None of that is true. When Harris said that world leaders were laughing at Trump’s ineptitude (another statement guaranteed to bait him), his response was to quote Hungarian President Viktor Orbán, a minor figure who admires Trump but also admires Putin. Was that the best he could do?

The WaPo and other sites have compiled a list of Trump’s lies and exaggerations, and it’s long.  Now Harris wasn’t immune to misstatements, either, but they were far fewer, and included her statement that “And as of today, there is not one member of the United States military who is in active duty in a combat zone, in any war zone around the world, the first time this century,”, which isn’t true. She claimed that the Biden administration created over 800,000 manufacturing jobs (the true number is close to 625,00).  But these are trivial compared to Trump’s fulminating and arrant lying.

I don’t know how many undecided voters would have been swayed by Trump’s performance to vote for him, but I doubt that it’s anywhere close to half.  The debate was really a contrast in likability and personality, and Harris’s cool demeanor and failure to get flustered made her look far better than Trump, whom I’ve always said suffers from a form of personality disorder.  And voters want to like the person whose box they check on the Presidential ballot.

Both candidates evaded some questions, including Trump’s denial of any responsibility for Project 2025, his failure to own up to the “fine people on both sides” statements he said after the far-right rally in Charlottesville, and his failure to specify how he’d rid the country of 11 million illegal immigrants. For her part, Harris didn’t really explain how her policies could change if her values didn’t, and she didn’t own up to her change of policy on fracking nor admit the seriousness of the immigration issue. This was balanced by two statements by Harris that were eloquent and, at least to me, somewhat moving: her defense of abortion rights for women and her rebuke of Trump for failing to stand for America’s democratic values by not supporting Ukraine.

No, Harris wasn’t strong on presenting policies (she did outline some, like her $6,000 tax credit to parents with newborns and a reduction in tax credits, and her website now outlines specific plans, including giving $25,000 to first-time home buyers). Whether her plans are financially viable is another question, but neither she nor Trump were asked that. (Note that, according to the New Republic, many of Harris’s policies were lifted directly from Biden’s campaign website).

The one issue on which I strongly disagree with Harris is the stand on Israel she espoused. While she said she strongly supported Israel and its right to defend itself, she also argued that the death toll of civilians in Gaza (something that’s been lifted from Hamas’s figures) is too high, and that we need both an immediate cease-fire and especially a two-state solution.  Both of those policies explicitly deny Israel the right to defend itself: a cease-fire now is a loss for Israel and a victory for Hamas, and we simply cannot have a two-state solution now. There are not honest brokers on either side, and of course neither Israel nor the Palestinians really want a two-state “solution”, which won’t solve any problems. (Israel now has no faith that a Palestinian state will be peaceful, and the Palestinians want the erasure of the state of Israel far more than they want their own state alongside Israel.)  I have little faith that Harris will conduct an israeli policy to my liking, but of course many Americans are far less pro-Israel than I.

As for the moderators, they were pretty good, though David Muir dominated the questions over Linsey Davis, which seems to me a bit sexist. However, the questions were generally good, and I thought the policy of fact-checking false claims during the live debate was a good one (and probably threw Trump off even more).

I believe that the Democrats, flush with victory, are now calling for a second debate, but I’m not sure there will be one. If the polls show that voters (and the electoral college) have moved towards Harris, Trump will surely not agree to a second debate.

When I discussed this with Luana today, she came to a conclusion that is hers. And here it comes. There is one good outcome of this debate: whichever side loses will have to recalibrate. If Trump loses, then MAGA is gone and Trump has lost most of his influence in the GOP. If Harris loses, then the Democrats have to become yet more centrist (though I have to add that Harris has deliberately become more centrist recently as a pragmatic issue to win).

We don’t know who will win the election, and the next few days will show how much Trump’s embarrassing performance will cost the GOP. (Remember, he’s always been an awful debater but has nevertheless come out on top twice.)  But regardless of that, there’s no question that the winner of the debate was Kamala Harris. I’m still not a big fan of hers, but was reminded last night why I’ve always regarded Trump as a joke—but a very dangerous joke.

Now, of course, it’s your turn to weigh in, and I ask you to do so in the comments. (There was some weighing in after my livestream post on the debate last night.)

Categories: Science

Readers’ wildlife photos

Why Evolution is True Feed - Wed, 09/11/2024 - 6:15am

And we’re back, with a batch of insect and spider photos from regular Mark Sturtevant. Mark’s comments are indented, and you can enlarge his photos by clicking on them.

Here are more pictures of arthropods that were taken last summer from eastern Michigan, which is where I live. They include both pictures from the field along with staged shots from the ‘ol dining room table.

First up are two bee- or wasp-mimicking Syrphid flies. The first one is Somula decora and the second is Temnostoma alternans. An issue that Syrphid flies will have when mimicking Hymenopterans is that because they are descended from flies with shortened antennae, they lack the long antennae of their models. The first one tries to fix that with antennae that are placed out on a stalk on the head.

The second one (which is doing a great job looking like a Yellowjacket, btw), instead tends to wave its darked front legs up and down as wasps will do with their antennae. The provided link is worth viewing, as it shows one of these flies using its legs. It really sells it! We often see that mimics not only take on the appearance of their models, but they will also imitate some of their identifying behaviors as well.

Next up is a simple Asian Lady Beetle larva Harmonia axyridis. This predatory larva will graze on aphids and then pupate to later become the ubiquitous Lady Beetle that everyone sees everywhere. In case anyone is wondering, the terms Lady Beetle, Ladybird Beetle, and Ladybug (one word) are all widely used, but it is technically more correct to use a reference that they are beetles (Coleoptera), and not bugs (Hemiptera). I will try to remember that.

It has been many years since I’ve seen the beetle shown in the next picture. This is an Elm BorerSaperda tridentata. The common name of course tells you something about the biology of this insect.

Let’s wrap up this set with some Jumping Spiders, which belong to the family Salticidae (referring to their habit of jumping, or saltating). I am lucky in that many species from this charming family are commonly seen in and around the house. There quite a few more besides the three shown here.

First up is a male Tan or Familiar Jumping Spider, Platycryptus undatus. These are our largest Salticid, and I can always find a few out on the shed. They are distinctly flatter than many members of this family, and they use that to quickly hide inside crevices on the shed. One has to be fast when trying to catch them.

Next is a female Dimorphic jumping spider, Maevia inclemens. They have this name since males come in two color morphs that look completely different. I showed one here a couple posts back. Jumping spiders are usually fidgety to photograph, but a common trick is to calm them down with a little snack.

Last, here is a female Zebra Jumping Spider, Salticus scenicus. These are one of our smallest Salticids. Males sport very large chelicerae and fangs, and I have not managed to get WEIT-worthy pictures of one since (for me) they are always dialed up to eleven. Save it for next season, I always say. Anyway, the last Zebra picture shows a new post-processing trick where I add Dramatic Lighting by using layer masks to apply darkened gradients above and below. This is to add greater depth to the surroundings and to emphasize the subject.

Categories: Science

Update on AI in the Clinic

Science-based Medicine Feed - Wed, 09/11/2024 - 5:02am

It seems there is an endless stream of artificial intelligence (AI) news coming out, and this includes the field of medicine. There also continues to be a debate about the true impact of AI – how much is hype, and how much is a genuine advance that can transform our technology? As with many technological advances, it’s both. New tech, perhaps especially […]

The post Update on AI in the Clinic first appeared on Science-Based Medicine.
Categories: Science

Huge new volcano has burst through the surface of Jupiter’s moon Io

New Scientist Feed - Wed, 09/11/2024 - 3:51am
In between two spacecraft visiting Jupiter’s moon Io, a volcano spreading material over hundreds of kilometres has appeared
Categories: Science

Fish size themselves up in a mirror to decide if they can win a fight

New Scientist Feed - Wed, 09/11/2024 - 3:00am
Cleaner wrasse use their reflection to build a mental image of their body size, which they use to compare themselves to rivals before picking a fight
Categories: Science

Skeptoid Flash Mob at CSICon 2024

Skeptoid Feed - Wed, 09/11/2024 - 2:00am

Join the Skeptoid Flash Mob at CSICon 2024 in Las Vegas. Visit skeptoid.com/store to get your shirts.

Categories: Critical Thinking, Skeptic

Two Supermassive Black Holes on a Collision Course With Each Other

Universe Today Feed - Tue, 09/10/2024 - 6:25pm

Galaxy collisions are foundational events in the Universe. They happen when two systems mingle stars in a cosmic dance. They also cause spectacular mergers of supermassive black holes. The result is one very changed galaxy and a singular, ultra-massive black hole.

These colossal events are a major force in the evolution of galaxies. It’s how smaller galaxies combine to form ever-larger ones. Such mergers have been going on since the earliest epochs of cosmic time. Galaxy mergers continue today. Our Milky Way continues to gobble up smaller ones and it will collide with the Andromeda Galaxy in a few billion years. When that happens, both galaxies’ supermassive black holes could also merge.

View of Milkdromeda from Earth “shortly” after the galactic merger of the Milky Way and Andromeda, around 3.85-3.9 billion years from now. Credit: NASA, ESA, Z. Levay and R. van der Marel (STScI), T. Hallas, and A. Mellinger

We don’t see the whole process from start to finish because it takes millions of years to complete. Yet, that doesn’t stop astronomers from looking for—and finding—evidence of galaxy and supermassive black-hole collisions. The latest discovery used the Hubble Space Telescope (HST) to spot three bright, visible light “hot spots” deep inside a pair of colliding galaxies. These targets lie relatively close to us—only about 800 million light-years away. Astronomers followed up with Chandra observations and radio data from the Karl G. Jansky Very Large Array.

Typically, galaxies with bright cores, called “active galactic nuclei” (AGN for short), exist very far away. They’re often seen earlier in cosmic time. The chance to study a galaxy and a pair of supermassive black holes in a collision in the “modern” nearby Universe is a good time to study the mechanics of such an event.

Spotting Incipient Supermassive Black Hole Collisions

The discovery of a future cosmic collision came when HST’s Advanced Camera for Surveys spotted three optical diffraction spikes in the heart of a colliding galaxy called MCG-03-34-64. Two of those “hot spots” appear very close together—only about 300 light-years apart. They trace the presence of oxygen gas in the core. It’s being ionized by something very energetic and the hot spots surprised the astronomers. (The third hot spot isn’t well understood.) “We were not expecting to see something like this,” said Anna Trindade Falcão of the Center for Astrophysics | Harvard & Smithsonian in Cambridge, Massachusetts. “This view is not a common occurrence in the nearby Universe, and told us there’s something else going on inside the galaxy.”

HST’s image of the galaxy MCG-03-34-064 in visible light. Two of the three bright spots at the core are active galactic nuclei sources of light and X-ray emissions. They indicate two supermassive black holes about 300 light-years apart and growing closer. Image credit: NASA, ESA, Anna Trindade Falcão (CfA)

Falcão and her colleagues wanted to know what was going on to cause those bright spots. So, they used the Chandra X-ray observatory to focus on the action. “When we looked at MCG-03-34-64 in the X-ray band, we saw two separated, powerful sources of high-energy emission coincident with the bright optical points of light seen with Hubble. We put these pieces together and concluded that we were likely looking at two closely spaced supermassive black holes,” said Falcão.

The team also found observations of these objects in archival radio telescope data. Those powerful radio emissions proved that the pair of black holes exists and are edging closer together. “When you see bright light in optical, X-rays, and radio wavelengths, a lot of things can be ruled out, leaving the conclusion these can only be explained as close black holes,” noted Falcão. When you put all the pieces together it gives you the picture of the AGN duo.”

The Upcoming Collision

These central supermassive black holes will collide in perhaps a hundred million years. Each is at the core of a single galaxy. As those galaxies draw ever closer together, the black holes in their hearts will start to interact. Eventually, they’ll merge in a powerful event, emitting gravitational waves as part of the process.

This illustration shows the merger of two supermassive black holes and the gravitational waves that ripple outward as the black holes spiral toward each other. Credit: LIGO/T. Pyle

Astronomers suggest (via simulations and observations) that mergers of galaxies with supermassive black holes trigger a lot of activity. As the collisions proceed, interstellar gas flows toward the galactic centers. It also gets compressed in other regions and both activities trigger bursts of star formation. Some gas also accretes onto those central supermassive black holes, causing increased emissions as material spirals through the accretion disk.

These mergers happen continually in the Universe. Models of galaxy evolution, coupled with observational evidence suggest that many AGNs at the hearts of galaxies experience mergers. Colliding supermassive black hole pairs within those AGNs also suggest that those black holes grow through mergers.

Supermassive Black Hole Collisions and Future Detections

Understanding the merger of close-together AGNs such as the ones seen in MCG MCG-03-34-64 offers a unique window into the final stages of what astronomers call “SMBH binary coalescence”. Such events are and will continue to be a major way to measure the effects of these mergers. They’ll offer a rich field of study using observatories sensitive to light across the spectrum, as well as future gravitational wave detectors.

LISA will observe a passing gravitational wave emitted as a result of the collision of two supermassive black holes directly by measuring the tiny changes in distance between freely falling proof masses inside spacecraft with its high precision measurement system. Credit: AEI/MM/exozet

Those detections will require advanced versions of the Laser Interferometer Gravitational-Wave Observatory (LIGO), which made its first detections only a few years ago. Supermassive black hole merger-induced gravitational waves will be the target of future instruments such as LISA (short for Laser Interferometer Space Antenna). It will deploy three space-based detectors millions of miles apart to capture the long-wavelength gravitational waves emitted when black hole behemoths like the ones in MCG-03-34-64 collide. Since those mergers occur throughout the Universe, it’ll be a rich field of study that contributes greatly to our understanding of galaxy mergers as part of cosmic evolution.

For More Information

NASA’s Hubble, Chandra Find Supermassive Black Hole Duo
Resolving a Candidate Dual Active Galactic Nucleus with ~100 pc Separation in MCG-03-34-64

The post Two Supermassive Black Holes on a Collision Course With Each Other appeared first on Universe Today.

Categories: Science

The Big Debate

Why Evolution is True Feed - Tue, 09/10/2024 - 6:00pm

This may be the only debate between America’s two Presidential candidates so it would behoove us to listen to it. It’s beginning in about three minutes so, if you’re watching, put your comments below.

The candidates have two minutes to answer the question, two minutes for a rebuttal by the other candidates, and then back to the questioned candidate for a one-minute rebuttal.

The debate is actually on all three major channels, but the moderators are from ABC.

Oh, and I have pretty bad jet lag, so I’ll last until my eyes start closing.

Categories: Science

The Milky Way’s Supermassive Black Hole Might Have Formed 9 Billion Years Ago

Universe Today Feed - Tue, 09/10/2024 - 4:09pm

Large galaxies like ours are hosts to Supermassive Black Holes (SMBHs.) They can be so massive that they resist comprehension, with some of them having billions of times more mass than the Sun. Ours, named Sagittarius A* (Sgr A*), is a little more modest at about four million solar masses.

Astrophysicists have studied Sgr A* to learn more about it, including its age. They say it formed about nine billion years ago.

SMBHs are the Universe’s most beguiling objects. They’re so massive that their gravitational pull can trap light. They’re surrounded by a rotating ring of material called an accretion disk that feeds material into the hole. When they’re actively feeding, they’re called active galactic nuclei (AGN.) The most luminous AGNs are called quasars, and they can outshine entire galaxies.

How can scientists determine the age of these confounding objects? How can they learn when our black hole, Sgr A*, formed? By gathering data, piecing it together, and running simulations.

This effort started in earnest in April of 2017 when the Event Horizon Telescope (EHT) observed the black hole at the center of galaxy M87. That was the first time we saw an image of a black hole, and it was followed up in 2022 when the EHT observed Sgr A*.

New research published in Nature Astronomy relied on EHT observations to ascertain Sgr A*’s age and origin. It’s titled “Evidence of a past merger of the Galactic Centre black hole.” The authors are Yihan Wang and Bing Zhang, both astrophysicists at the University of Nevada, Las Vegas.

Black holes grow in two ways. They accrete matter over time, and they merge. Astrophysicists believe that it takes a galaxy merger to form an SMBH, and Sgr A* is no different. It likely formed through a merger, though it also accretes material.

This artist’s conception illustrates a supermassive black hole (SMBH) at the core of a young, star-rich galaxy. Black holes grow through two processes: accretion and mergers. Image credit: NASA/JPL-Caltech

Sgr A* is unusual. It spins rapidly and is misaligned relative to the Milky Way. This is evidence of a past merger, according to Wang and Zhang, possibly with a long-gone satellite galaxy called Gaia-Enceladus.

“The Event Horizon Telescope (EHT) provided direct imaging of the SMBH Sgr A* at the Milky Way’s center, indicating it likely spins rapidly with its spin axis significantly misaligned relative to the Galactic plane’s angular momentum,” the authors write in their paper.

The pair of researchers used computer simulations to model what impact a merger would have on the Milky Way’s black hole. “Through investigating various SMBH growth models, here we show that the inferred spin properties of Sgr A* provide evidence of a past SMBH merger,” the authors write.

Their work shows that a 4:1 mass ratio merger with a highly inclined orbital configuration can explain what EHT observations of Sgr A* show. “Inspired by the merger between the Milky Way and Gaia-Enceladus, which has a 4:1 mass ratio as inferred from Gaia data, we have discovered that a 4:1 major merger of SMBH with a binary angular momentum inclination angle of 145-180 degrees with respect to the line of sight (LOS) can successfully replicate the measured spin properties of Sgr A*,” the authors explain in their work.

This figure from the research shows how a black hole merger can create a single, more massive black hole with a spin misaligned with the host galaxy. Image Credit: Wang, Zhang 2024.

“This merger likely occurred around 9 billion years ago, following the Milky Way’s merger with the Gaia-Enceladus galaxy,” said Zhang, a distinguished professor of physics and astronomy at UNLV and the founding director of the Nevada Centre for Astrophysics. “This event not only provides evidence of the hierarchical black hole merger theory but also provides insights into the dynamic history of our galaxy.”

Gaia-Enceladus in a simulation of a galactic merger with the Milky Way matching Gaia data. The remnants of the merger are found throughout the Milky Way. Image Credit: ESA (artist’s impression and composition); Koppelman, Villalobos and Helmi (simulation)

“This discovery paves the way for our understanding of how supermassive black holes grow and evolve,” said lead author Wang in a press release. “The misaligned high spin of Sgr A* indicates that it may have merged with another black hole, dramatically altering its amplitude and orientation of spin.”

“This merger event in our galaxy provides potential observational support for the theory of hierarchical BH mergers in the formation and growth of SMBHs,” the authors write in their conclusion.

When galaxies merge, so do their central black holes. While this has been largely theoretical, gravitational wave observatories are detecting an increasing number of black hole mergers. However, due to our observatories’ frequency range, they’ve only detected stellar mass black hole mergers. SMBH mergers would produce much lower gravitational wave frequencies that are beyond the range of detectors like LIGO/Virgo/KAGRA. The system’s detectors are too close together to detect the lower frequencies.

The authors also point to SMBH merger rates determined in other simulations like the Millenium Simulations, which suggests there could be hundreds or thousands each year in the observable Universe. “The inferred merger rate, consistent with theoretical predictions, suggests a promising detection rate of SMBH mergers for space-borne gravitational wave detectors expected to operate in the 2030s.”

There are plans to build facilities that can detect these lower SMBH merger frequencies. The ESA and NASA are planning a mission called LISA (Laser Interferometer Space Antenna) that can detect these waves. LISA will consist of three spacecraft working together as an interferometer. Each spacecraft would be 2.5 million km long.

Artist Impression of LISA, the Laser Interferometer Space Antenna. Image Credit: NASA

SMBHs are some of the most puzzling objects in the Universe and are daunting to study. However, even in the absence of any gravitational wave evidence of SMBH mergers, this research helps set the stage for deepening our understanding of these mergers when they do occur.

The post The Milky Way’s Supermassive Black Hole Might Have Formed 9 Billion Years Ago appeared first on Universe Today.

Categories: Science

Flexibility of containers, and how fast they drain

Matter and energy from Science Daily Feed - Tue, 09/10/2024 - 3:45pm
A new article examines how the flexibility of containers affect how fast they drain.
Categories: Science

Starliner Comes Home Empty

Universe Today Feed - Tue, 09/10/2024 - 2:43pm

The Boeing Starliner module has been plagued with issues despite what seemed to be the dawning of a new commercial space giant. The module detached from the International Space Station on 7 September but without its crew! Butch Wilmore and Suni Williams journeyed to the ISS in June this year in what was supposed to be a mission lasting just a week. They are still there! Just a few days ago, their module returned under remote control while they stay in orbit until February! 

I think the two astronauts stuck up in the ISS (although NASA and Boeing try and contain the use of the term ‘stuck’) would agree, space exploration is unpredictable! We are only just scraping the surface of the physics of the cosmos and the extreme conditions beyond the safe confines of Earth’s atmosphere.

NASA’s Boeing Crew Flight Test astronauts (from top) Butch Wilmore and Suni Williams pose on June 13, 2024 for a portrait inside the vestibule between the forward port on the International Space Station’s Harmony module and Boeing’s Starliner spacecraft. Credit: NASA

Spacecraft like the Boeing Starliner must protect the crew from the hostile environment that includes high levels of radiation, and micrometeoroids to name just tow of them. Even with the extreme levels of planning that go into space missions, sometimes things go wrong! Human error, equipment malfunction and even cosmic events can all transpire to make space exploration one of the trickiest endeavours our species has undertaken. 

The Starliner module was developed by Boeing as one of a new generation of spacecraft designed to transport astronauts to the ISS. It was developed as part of NASAs Commercial Crew Program as an independent, re-usable module. The module is equipped with touch screen controls to give it a real ‘Star-Trek’ appeal, a streamlined suite of instruments that enable it to be either manually or automatically controlled. It has been designed for land-based recoveries like most others that splash down on their return to Earth.

The Starliner spacecraft is pictured docked with the Harmony module at the International Space Station high above the Mediterranean Sea. Credit: NASA

The Boeing contract with NASA was secured in September 2014 and, after a few test failures, finally launched its first crew to the ISS on 5 June 2024. The intention was for them to stay on board for a week but as history shows, that hasn’t quite gone to plan. Before they had even left a helium leak had been identified in the propulsion system but was considered to be isolated. During the flight, another four leaks were identified. 

What do these dates have in common; 14 June, 18 June and 24 August? They are all dates that NASA and Boeing a delay for the return of Willliams and Wilmore. Now it looks likely that their return won’t be until February next year hitching a ride on board the SpaceX Dragon module instead. 

Crew Dragon docking with ISS

The decision was taken to return the Starliner module to Earth autonomously for safety concerns. Now it is back on Earth teams of engineers will begin work to understand what has been plaguing the propulsion system. It touched down on 7 September landing at the White Sands Space Harbour in New Mexico in what has been described as a text book landing, unfortunately Williams and Wilmore had to watch from the comfort of the ISS!

Source : Starliner Lands in New Mexico

The post Starliner Comes Home Empty appeared first on Universe Today.

Categories: Science

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