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The ideological capture of chemistry: Chemophobia and social justice

Why Evolution is True Feed - Tue, 07/30/2024 - 9:30am

As I’m doing a lot of preparation for my trip to South Africa, I have neither the time nor the will to dissect the article below, a piece that appeared in The Journal of Chemical Education. As is so often the case with these articles that try to use science education to create what they call “Social Justice”, it’s poorly written, illustrated with childish and uninformative figures, and—worse—so poorly argued that I can’t even see its main point. It has something to do with teaching chemistry in a more “inclusive” way, but gives no serious methodology for doing so beyond talking about social justice in chemistry class. In the end, it’s simply a performative act that says, “Hey, there’s real structural racism in chemistry, and we two chemists are on the side of the minoritized. ” Click below to read, or download the pdf here.

Below there’s also a critique of this article by Jordan Beck; a critique published in Heterodox STEM.

Just a few excepts from the article above to give a sense of its inanity, and AI-style boilerplate:

Sexism, racism, queerphobia, and ableism (among many other forms of discrimination) continue to permeate society and culture. Existing as a multiply marginalized individual exacerbates these inequities. Intersectionality as a concept was described in the academic literature by Crenshaw in 1989, explaining how individuals could experience specific, compounded discrimination, not simply additive.

These societal inequities are reflected and reproduced in chemistry. Stereotypes about who can and cannot succeed in chemistry persist, in combination with inequality of participation and research funding success statistics, leading to homogeneity in groups communicating and conducting scientific research. Important work has highlighted the contributions of racially minoritized chemists in curricula, which is a key aspect of teaching chemistry both in schools and in postcompulsory education.  Chemistry-specific inequities also include privileging only certain, narrow forms of “expert” scientific knowledge, e.g., prioritizing academic language which advantages the dominant cultural groups of chemistry students, graduates, and academics–an “untranslatable code” for those outside. This leads to individuals who do not see themselves as “properly” scientific or think that genuine fears of chemistry and/or chemicals will be dismissed, developing chemophobic attitudes. Therefore, when trying to challenge chemophobia, we have to consider these structural factors to avoid reinforcing existing views of being excluded, patronized, or dismissed. This social justice lens builds on previous models of chemophobia to explicitly identify these structures, highlighting additional challenges faced by marginalized group

These sense of this, insofar as it has any sense, is that the emphasis on merit in chemistry, and the use of language that conveys chemical concepts, is bigoted and creates “chemophobia.”

There’s more:

However, very little literature on chemophobia specifically considers structural factors, e.g., systemic racism, sexism, or unequal access to education, and where research identifies that certain marginalized subgroups in a population are more likely to endorse chemophobic attitudes, this is rarely interrogated or explained.

Maybe there isn’t that much literature on systemic racism in chemistry because there’s not that much systemic racism (i.e. formally codified discrimination) in chemistry.

And here’s how to fix chemophobia (there’s a long list given as well, but you can read it for yourself). The upshot: we need more DEI!

However, a small but growing number of papers integrate social justice considerations, including Goeden and colleagues, who describe a community-based inquiry that improved critical thinking in allied health biochemistry.  Livezey and Gerdon both describe teaching practices that integrate DEI (Diversity, Equity, and Inclusion) practices and explicitly link chemistry with social justice; these authors found that the social justice focus of the teaching promoted student engagement from those who were already involved in STEMM courses and those who, in their own words, “honestly did not like science”, and improved learners’ understanding of chemistry and wider scientific issues through course content that was relevant to their experiences and interests.

Again, the authors are using chemistry to advance their notion of social justice, which includes effacing the dubious “systemic racism” of the field.  I think it would be better just to bring more minorities into chemistry by widening the net, furthering equal opportunity, and teaching chemistry—real chemistry—in an interesting way.

Like me, Jordan Beck is weary of papers like this. Click to read, and I’ll give one excerpt below. There is no branch of science immune from this kind of performative virtue signaling:

From Beck:

Thus, I really struggle when articles like this chemophobia paper come through because when these topics come up, journals seem to lose any pretense of rigor and relevance—anything goes under the DEI flag. Such papers also promote ideas that I consider to be detrimental to the science.  The chemophobia article is only a commentary, but it still bothers me.

The remainder of this post consists of select passages from the commentary with my commentary in response.  All quotes are from the commentary.

The Palmer and Sarju paper starts with a figure that I’ve put below along with Beck’s analysis.

The figure, which constitutes an insult to the intelligence of not just academics, but anyone. It adds nothing beyond what’s said in the paper’s text:

Beck’s take:

It is difficult to summarize exactly what the figure is meant to convey, but it seems like the idea is that we need some sort of rainbow lens to disrupt the uniformity of the people in the sciences.  It is better, in this view, to label each scientist with a particular label so that we can understand how “differential access to education” is leading to “cognitive overload”. I maintain the notion, which for one reason or another now seems to be outdated or taboo, that I really don’t care about the sexual orientation of the authors of a journal article that I am reading. In fact, if you can believe it, I didn’t even think about trying to determine the gender or sexual orientation of the authors of the article that I just reviewed. The top picture, where all the scientists are the same, has some merit.  They can be judged simply by what they contribute.

Frankly, I’m losing my willingness to take apart papers like this because they’re all the same. I can suggest only two things to the authors. First, if you want more diversity in chemistry, work on giving children more opportunity to encounter chemistry, not DEI-ize the way chemistry is taught. Second, learn to write, as your prose is turgid and, surprisingly, laden with jargon that obscures the meaning of your text.

Categories: Science

AI put in charge of setting variable speed limits on US freeway

New Scientist Feed - Tue, 07/30/2024 - 9:00am
Roads with variable speed limits, designed to manage traffic flow, are normally adjusted according to simple rules, but a 27-kilometre section of the I-24 freeway near Nashville, Tennessee, is now overseen by an artificial intelligence
Categories: Science

Will implants that meld minds with machines enhance human abilities?

New Scientist Feed - Tue, 07/30/2024 - 9:00am
Devices that let people with paralysis walk and talk are rapidly improving. Some see a future in which we alter memories and download skills – but major challenges remain
Categories: Science

Tablet on Wikipedia’s “Jewish problem”

Why Evolution is True Feed - Tue, 07/30/2024 - 8:00am

Wikipedia is my go-to site for checking facts quickly, as it is for many. But I’ve seen enough wonky stuff on it that I wouldn’t trust it on controversial matters, and that’s the topic of this post.  (I have long wanted to go through its “Evolution” page to check for accuracy, but I’ve never gotten around to it.)

Tablet is a pretty reliable source, and in this piece, Izabella Tabarovsky argues that Wikipedia has distorted facts and material about Judaism and Israel, all in a way hostile to Israel—and the truth.  Even Larry Sanger, the co-founder of Wikipedia, claims that the site’s new leadership (yes, there are authorities above the editors) are “clowns” and that its vaunted neutrality is a sham.

Tabarovsky is identified this way:

Izabella Tabarovsky is a scholar of antizionism and contemporary left antisemitism. She is a Senior Fellow with the Z3 Institute for Jewish Priorities and a Research Fellow with the London Centre for the Study of Contemporary Antisemitism and ISGAP.

Click the headline to read:

The thesis:

Wikipedia’s key principles are codified in “five pillars,” which include writing from a neutral point of view and using reliable sources to document key arguments. Another pillar urges editors to treat each other with respect and seek consensus on contentious topics. Disputes are resolved by volunteer administrators and can be escalated all the way to the Wikipedia Arbitration Committee (aka Wikipedia’s “Supreme Court”). Punishment can include bans varying in severity and length of time.

Today, Jewish people and the Jewish story are under an unprecedented global assault, and Wikipedia is being used as a weapon in this war.

. . .Wikipedia also prides itself on radical transparency: Every edit can be seen by everyone on a specially designated page.

Closer to home, what’s clear is that Wikipedia’s articles are now badly distorted, feeding billions of people—and large-language models that regularly train on the site, such as ChatGPT—with inaccurate research and dangerously skewed narratives about Jews, Jewish history, Israel, Zionism, and contemporary threats to Jewish lives.

The first sign of the problem to Tablet:

In June, a group of Wikipedia editors and administrators rated the Anti-Defamation League as “generally unreliable” on the Israeli-Palestinian conflict and “roughly reliable” on antisemitism “when Israel and Zionism are not concerned.” They also evaluated the ADL’s database of hate symbols, deeming it as “reliable for the existence of a symbol and for straightforward facts about it, but not reliable for more complex details, such as symbols’ history.”

The anonymous editors, with unknown backgrounds or academic credentials, accused the ADL of “conflating” anti-Zionism with antisemitism and relying on the International Holocaust Remembrance Alliance’s definition of antisemitism, which, they claimed, brands all criticism of Israel as antisemitic and stifles pro-Palestinian speech. They also accused the ADL of “smearing” Students for Justice in Palestine by calling on universities to investigate whether the group provided material support to Hamas, a U.S.-designated terrorist organization.

You can read the linked articles, and also the Wikipedia article on the Anti-Defamation League, which beefs that the ADL conflates antisemitism with anti-Zionism, a claim that no longer carries much water for me. (It’s a pity that the Munk Debate on this issue, in which Douglas Murray and Natasha Hausdorff, taking the side of equivalence, trouncedtheir opponents, is no longer free online, though bits of it are; see here and here.)

Apparently the Wikipedia editors who are most persistent on matters Jewish in Wikipedia are those who are anti-Israel, and have simply worn down their opponents. Especially in foreign-language articles, which have some influence, the errors persist for years and years. For example:

In 2004, a spokesperson for the Polish branch of Wikimedia Foundation created an article in English describing an extermination camp in Warsaw, where the Nazis gassed 212,000 Poles. The story—a fiction—remained on the site for 15 years before the Israeli newspaper Haaretz revealed the problem in 2019. By then, the article had been translated into multiple languages, and its claims incorporated into multiple other Wikipedia articles. An estimated half a million people got exposed to the lie.

Last year two historians published a bombshell paper demonstrating how a group of ideologically driven editors spent years systematically distorting Polish Jewish history across multiple Wikipedia articles to align it with far-right Polish nationalist preferences. [JAC: It is now against the law in Poland to argue that the Poles helped the Nazis experminate the Jews, even though that’s true.] Working in concert, the group falsified evidence, promoted marginal self-published sources, created fake references, and advanced antisemitic stereotypes. It whitewashed “the role of Polish society in the Holocaust,” “minimize[d] Polish antisemitism, exaggerate[d] the Poles’ role in saving Jews,” blamed Jews for the Holocaust, and generally steered “Wikipedia’s narrative on Holocaust history away from sound, evidence-driven research, toward a skewed version of events,” wrote the authors, Jan Grabowski and Shira Klein.

Wikipedia’s mechanisms proved entirely inadequate in the face of this motivated, organized assault. Working “as a monolith,” the group manipulated the procedures, coordinated edits, and rallied to each other’s support when challenged. Users seeking to correct the group’s edits found themselves outnumbered and outmaneuvered. “Challenging the distortionists takes a monumental amount of time, more than most people can invest in a voluntary hobby,” wrote Grabowski and Klein. The distortionists exhausted their opponents with endless debates, aggressive “battleground behavior,” rudeness, and “mass deletions,” leading some to simply give up on editing the topic. Volunteer administrators called upon to resolve conflicts were unqualified to adjudicate content issues and unwilling to invest the hours required to sort through sources.

. . . . The most incomprehensible part about this is that it took Wikimedia Foundation 14 years from the time the first complaints began to surface to do something about it.

Tabarovsky also argues that the “reliable” sources for matters Judaic on Wikipedia are liberal sources known for being anti-Israel, including the NYT, BBC, The New Yorker, and The Guardian. Those are in fact the very sources that I consider most dubious on Israel news.  Conservative Sources like the New York Post and Fox News are rated unreliable, though often news that makes Israel looks bad (like the false claim that an Israeli strike demolished Al-Ahli Arab Hospital in Gaza) are loudly promoted by these organs of the MSM. More:

This ranking tells us what kind of slant we can expect in Wikipedia’s articles about Israel, Zionism, and anti-Zionist antisemitism. In the wake of Oct. 7, “generally reliable” sources have trafficked in disinformation, as when The New York Times splashed the Al Ahli hospital bombing hoax over its front page, helping spark violent anti-Jewish riots across the world; or when The New Yorker legitimized Holocaust inversion—a long-running staple of anti-Zionist propaganda originating in the 1960s USSR. Conservative outlets, on the other hand, have produced reporting that tells Israel’s side of the story and have looked far more critically at the anti-Israel campus protests. The “generally unreliable” Washington Free Beacon has arguably produced the most extensive reporting on the protests. Wikipedia editors, however, are warned against using the Beacon as a source, which is why of the 353 references accompanying Wikipedia’s article on the pro-Palestinian campus protests, the overwhelming majority is to liberal and far-left sources plus Al Jazeera.

Here’s how it works: as we know, among “progressive” Leftists, which are the most anti-Israel group in politics save groups like the Black Muslims, it is the loudest and most persistent group who triumphs. One example:

One-sided sources are just one among a host of problems in Wikipedia articles related to Oct. 7 and the war that followed. In a World Jewish Congress report released in March, Dr. Shlomit Aharoni Nir documents numerous ways in which relevant Wikipedia entries have become de facto anti-Israel propaganda. From biased framing to omissions of key facts to stressing anti-Israel examples while ignoring the Israeli side of the story, to promoting fringe academic perspectives on Zionism—Wikipedia’s editors and administrators have actively worked to subvert the site’s neutrality policy on this topic. As in other instances, conflicts and bullying behavior predominate, with Israeli editors describing uniquely “hostile and disrespectful” treatment. Israeli users, who are most knowledgeable about the Oct. 7 events, often found themselves locked out of editing key articles, which were open for editing only to users who’d made over 500 edits. Several editors told Aharoni Nir that there were a number of activists who operated anonymously and were “responsible for the anti-Israel tone.”

Among some of the most troubling instances Aharoni Nir documented were calls for deletions of crucial articles. These included articles describing individual massacres on Oct. 7, such as those at Netiv HaAsara, Nir Yitzhak, Yakhini, and other kibbutzim and moshavim, as well as articles describing Hamas beheadings. Some of the calls succeeded. So did the call to erase the article about Nazism in Palestinian society (a “documented historical and sociological phenomenon,” notes Aharoni Nir). By contrast, the article normalizing equations between Israel and Nazi Germany—a propagandistic concept that has been weaponized against Jews for decades––remains on the site. Meanwhile, Wikipedia’s Arabic site openly abandoned the principle of neutrality last December when it temporarily went dark in solidarity with the Palestinians, then added the Palestinian flag to its logo and posted a pro-Palestinian statement at the top. Israel’s Wikipedia community protested. Wikimedia Foundation—you guessed it—did nothing.

There are other subtle distortions in articles about Israel, including the one about the Six-Day War in 1967.  As Malgorzata noted,

“There is not a word about the threats from both Egyptian and Syrian authorities and media about obliterating Israel. The falsification is very subtly done – as if Israel didn’t have a genuine reason to launch a preemptive  strike.”

There’s a lot more to read and, in the end, Tabarovsky argues that one of the world’s most-consulted sources of information is biased to the extend that it’s turning itself “into the Great Soviet Encyclopedia.”

Maybe I should have a look at Wikipedia’s “evolution” article, though I’m pretty sure that it hasn’t been ideologically captured by creationists or IDers. There are enough pro-science editors out there to prevent any gross distortions from happening.  But do be aware of Wikipedia’s coverage of things about Israel.

***********

UPDATE:  Oops, I made the mistake of looking at the Evolution article in Wikipedia and found this right at the beginning:

Evolution by natural selection is established by observable facts about living organisms: (1) more offspring are often produced than can possibly survive; (2) traits vary among individuals with respect to their morphologyphysiology, and behaviour; (3) different traits confer different rates of survival and reproduction (differential fitness); and (4) traits can be passed from generation to generation (heritability of fitness).[7] In successive generations, members of a population are therefore more likely to be replaced by the offspring of parents with favourable characteristics for that environment.

This is a hypothesis that doesn’t really establish the fact of natural selection, but suggests its likelihood. To establish natural selection’s existence, you must document it empirically. Also, the fact that “more oftfspring are often produced than can possibly survive” is, as pointed out by Ronald Fisher, more a result of natural selection than an observation that leads one to conclude that natural selection must occur. (You have a lot of kids because there are many things going after them.) I wouldn’t have begun that article using this as evidence for evolution by natural selection. Further, evolution can occur by means other than natural selection, including genetic drift (which they do mention) and meiotic drive (which they don’t). Overall, however, the article looks pretty good, and of course every evolutionist will have a beef that their favorite topics aren’t covered properly.

Categories: Science

Anti-methane vaccine could reduce the huge climate impact of cow burps

New Scientist Feed - Tue, 07/30/2024 - 7:00am
A prototype vaccine from ArkeaBio, a US start-up, cut methane emissions by 13 per cent in a first trial involving 10 cows, offering a potential way to reduce the huge climate impact of cattle farming
Categories: Science

Readers’ wildlife photos

Why Evolution is True Feed - Tue, 07/30/2024 - 6:15am

Today Doug Hayes of Richmond, Virginia, has sent a batch of pictures showing the primate H. sapiens engaged in a ritual of unknown evolutionary signifiance; it’s called “dancing”. Doug’s captions and IDs are indented, and you can enlarge the photos by clicking on them.

Here’s my latest photoshoot done for Starr Foster Dance to publicize their next show, Page To Stage III at Richmond, Virginia’s Firehouse Theatre December 5th – 8th, 2024. This will be the third Page To Stage presentation, a cross-disciplined project combining the art of writing and dance. Writers were asked to submit short works of prose or poetry, which would be interpreted in dance by chorographer Starrene Foster and her dancers.

The dancers pictured here are the core members of the company: Shannon Comerford, Molly Huey, Fran Beaumont, Angela Palmisano and Madison Ernstes. Other dancers, drawn from the Richmond dance community, will be added as needed. The show will consist of eight pieces, of which three pieces have been choreographed and are in rehearsal.

In addition to the choreography, Starrene is also designing and sewing the costumes as well as collaborating on the original music and lighting design! For more information on the company (and more of my photos), visit www.starrfosterdance.org. The Firehouse Theatre’s website is www.firehousetheatre.org.

Core members of Starr Foster Dance (L to R) Fran Beaumont, Shannon Comerford, Molly Huey, Angela Palmisano and Madison Ernstes:

For this group shot, the flash units were aimed at the ceiling and bounced down on the dancers. Starr loves shadowy and mysterious looking lighting similar to stage lighting. Dresses designed and sewn by Starrene Foster:

Another group shot, this time, Angela and Molly were asked to come up with a unique move while Shannon, Madison and Fran jumped in the background:

Angela Palmisano executing a leap. Each dancer was encouraged to execute a different jump for the individual photos:

Angela Palmisano, Molly Huey and Madison Ernstes:

Fran Beaumont and Shannon Comerford:

Molly Huey in flight!:

Madison Ernstes levitating:

Angela Palmisano, Molly Huey and Madison Ernstes execute a group jump:

Shannon Comerford:

 Another double jump by Fran Beaumont and Shannon Comerford. They are actually off the ground, not kneeling:

Fran Beaumont does her jump:

Photo info: All photos were shot with the Sony A1 camera body and Sony FE 24-105 lens – usually set at 35mm for group and duo photos, 50-90mm for solo shots. The camera was set to do a burst of 15 shots per second for the action photos.

Lighting was with two Wescott FJ400WS battery-powered monolights set to “Freeze” mode which allows burst shooting at up to 20 frames per second, enabling the flash to keep up with the camera’s burst speed. The camera’s flash synch speed was 1/350th of a second which eliminates motion blur from ambient light – a problem with older cameras and flash units when photographing fast action. Until recent improvements in camera technology and flash units’ electronics, sync speed was limited to only 1/60th of a second.

The flashes were triggered by a wireless FJ-X3 S (for Sony cameras) radio transmitter capable of controlling 20 flash units per channel simultaneously (32 channels with the capability of independently programming six groups of up to 20 flash units). Photos were shot at ISO 400 and edited in Adobe Photoshop and Topaz Photo AI (noise reduction and enhancement)

Categories: Science

Finally! Astronomers Find the Missing Link Between Stellar and Supermassive Black Holes

Universe Today Feed - Tue, 07/30/2024 - 5:34am

While black holes are known as the most destructive objects in the universe, their evolution is largely shrouded in mystery. This is because while astronomers are familiar with supermassive black holes that exist at the center of galaxies like our own and black holes whose masses are less than 100 times the size of our Sun, the notion of intermediate-mass black holes (IMBHs) have largely eluded discovery. However, this might change with the recent discovery of a black hole candidate that could exist within the globular cluster, Omega Centauri, and holds the potential to be the “missing link” in scientists better understanding black hole evolution.

For the discovery, an international team of researchers used the Hubble Space Telescope and spent approximately 20 years examining more than 500 images of seven fast-moving stars that lie within Omega Centauri, which is located just over 17,000 light-years from Earth and estimated to be just over 11.5 billion years old. A possible reason for the lengthy research time is because Omega Centauri is estimated to contain approximately 10 million stars, each with an average mass of four of our Suns, with the globular cluster being approximately 150 light-years in diameter.

“We discovered seven stars that should not be there,” said Maximilian Häberle, who is a PhD student at the Max Planck Institute for Astronomy in Germany and the investigation lead. “They are moving so fast that they should escape the cluster and never come back. The most likely explanation is that a very massive object is gravitationally pulling on these stars and keeping them close to the center. The only object that can be so massive is a black hole, with a mass at least 8200 times that of our Sun.”

For context, the supermassive black hole at the center of our galaxy is approximately 4.3 million times the mass of our Sun, which could put this black hole candidate in the “intermediate range” based on what scientists know about smaller black holes being less than 100 times the mass of our Sun. However, the only other study that suggested the existence of an IMBH within Omega Centauri was in 2008, so this latest discovery will require further examination as the researchers have yet to determine this candidate’s exact mass and position within Omega Centauri.

“This discovery is the most direct evidence so far of an IMBH in Omega Centauri,” said Dr. Nadine Neumayer, who is a scientist at the Max Planck Institute for Astronomy and who began the study. “This is exciting because there are only very few other black holes known with a similar mass. The black hole in Omega Centauri may be the best example of an IMBH in our cosmic neighborhood.”

This new candidate continues a long list of potential IMBH discoveries dating back to 2004, with no definitive confirmations being made to this day. Additionally, given this potential IMBH is located just under 17,000 light-years from Earth, if confirmed, could be the closest black hole to Earth, beating out the supermassive black hole residing at the center of our galaxy, which is approximately 27,000 light-years away.

As noted, black holes are known as the most destructive, yet most mysterious, objects in the universe. This is because they can’t be directly observed and are only detectable when they consume an object in their surrounding environment, most often a star. However, once detected, astronomers can learn much about their behavior, which includes the production of gravitational waves when two black holes merge, as was discovered in 2016.

Additionally, their evolution remains a mystery, as astronomers have debated for decades regarding how black holes form, evolve, and even die. Therefore, confirming the existence of the first IMBH could bring astronomers one step closer to better understanding black hole evolution throughout the universe.

How will IMBHs help astronomers better understand black hole evolution in the coming years and decades? Only time will tell, and this is why we science!

As always, keep doing science & keep looking up!

The post Finally! Astronomers Find the Missing Link Between Stellar and Supermassive Black Holes appeared first on Universe Today.

Categories: Science

Watch an Inflatable Habitat Burst in Super Slo-Mo

Universe Today Feed - Tue, 07/30/2024 - 5:14am

Ae inflatable habitats the future of human space exploration? This is what the space-tech company, Sierra Space, hopes to achieve as they recently conducted a successful Ultimate Burst Pressure test on June 18 with its Large Integrated Flexible Environment (LIFE®) technology at NASA’s Marshall Space Flight Center. The goal of these tests is to inflate the test article until it explodes while ascertaining if the maximum pressure falls within NASA’s strict safety guidelines regarding a recommended operating pressure of 60.8 psi (maximum operating pressure of 15.2 psi times four as a safety factor). Upon explosion, Sierra Space engineers immediately found the recent test achieved 74 psi, thus exceeding NASA’s safety standards by 22 percent.

“We are 100 percent committed to maintaining U.S. leadership in Low Earth Orbit. Sierra Space is leading the way with the first commercial space station to replace the International Space Station when it is decommissioned and ensure there is no gap in LEO,” said Sierra Space CEO Tom Vice. “Our revolutionary, expandable space station technology reinvents the space station. Our technology, for the first time, will enable the right unit economics that will usher in the full commercialization of space. Our biotech and industrial partners will utilize our factories of the future to innovate new products that will massively disrupt terrestrial markets and benefit life on Earth.”

This recent test marks the technology’s second full-scale structural test and seventh key validation test, which comes after Sierra Space successfully conducted its first full-scale burst test in December 2023, achieving 77 psi and exceeding NASA’s safety standards by 27 percent. Both test units stood at more than 6 meters (20 feet) in height and had volumes of 300 m3 (10,594 ft3), or approximately 1/3rd of the pressurized volume of the International Space Station (ISS). Sierra Space is now planning for the first test of its 500 m3 (17,657 ft3) space station technology in 2025, which will be 55 percent of the pressurized volume of the ISS.

December 2023 burst test of the Large Integrated Flexible Environment (LIFE®)

“No other company is moving at the speed of Sierra Space to develop actual hardware, stress-tested at full scale, and demonstrate repeatability. We’ve taken a softgoods system that very few companies around the world have been able to design, and now we have consistent, back-to-back results,” said Shawn Buckley, VP of Earthspace Systems, Space Stations, at Sierra Space. “A second successful full-scale test is an absolute game changer. We now know it’s possible to equal or surpass the total habitable volume of the entire International Space Station, in a single launch.”

While these two recent tests were conducted at full-scale, Sierra Space conducted two sub-scale burst tests in July 2022 and November 2022, achieving maximum pressures of 192 and 204 psi, respectively, with NASA’s safety standards being 182.4 psi given the sub-scale sizes, thus both tests successfully exceeding these safety standards.

July 2022 sub-scale burst test November 2022 sub-scale burst test

Sierra Space stated in June 2023 that they hope to launch a “pathfinder” version of the LIFE® habitat in 2026 with the goal of the technology being an essential piece to the Orbital Reef commercial space station, with the latter scheduled to be operational in 2027. Given its size, Sierra Space estimates the LIFE® habitat can comfortably accommodate four astronauts with the remaining volume being used for science experiments, exercise equipment, small medical facilities, and the Astro Garden® system, which can potentially grow food in space and has previously undergone testing at the Sierra Space Madison WI facility.

This comes as numerous commercial space companies are attempting to launch their own space stations, including the Axiom Station, Starlab Space Station, Haven-1, and the aforementioned Orbital Reef space station. Additionally, this also comes as NASA announced their plans to “retire” the ISS in 2030, although the agency announced in a July 2024 white paper that they will evaluate the possibility of extending the lifetime of the ISS if no commercial space stations are able to accommodate space-based research at that time.

How will Sierra Space’s Large Integrated Flexible Environment (LIFE®) technology help advance human space exploration in the coming years and decades? Only time will tell, and this is why we science!

As always, keep doing science & keep looking up!

The post Watch an Inflatable Habitat Burst in Super Slo-Mo appeared first on Universe Today.

Categories: Science

GMOs – Ask a Farmer

neurologicablog Feed - Tue, 07/30/2024 - 5:04am

The topic of genetically modified organisms (GMOs) is a great target for science communication because public attitudes have largely been shaped by deliberate misinformation, and the research suggests that those attitudes can change in response to more accurate information. It is the topic where the disconnect between scientists and the public is the greatest, and it is the most amenable to change.

The misinformation comes in several forms, and one of those forms is the umbrella claim that GMOs have been bad for farmers in various ways. But this is not true, which is why I have often said that people who believe the misinformation should talk to farmers. The idea is that the false claims against GMOs are largely based on a fundamental misunderstanding of how modern farming works.

There is another issue here, which falls under another anti-GMO strategy – blaming GMOs for any perceived negative aspects of the economics of farming. Like in many industries, farm sizes have grown, and small family farms (analogous to mom-and-pop stores) have given way to large corporate owned agricultural conglomerates. This is largely due to consolidation, which has been happening for over a century (long before GMOs). It happens because larger farms have an economy of scale – they can afford more expensive high technology farm equipment. They can spread out their risk more. They are more productive. And when a small farm owner retires without a family to leave it to, they tend to consolidate with a larger farm. Also, government subsidies tend to favor larger farms.

Some small family farms have found a business model that works, and they do well. We have many local farms where I live, who do agricultural events, pick your own, pumpkin picking, sell many heirloom vegetables, sell wine, have a corn maze, and do other things to stay profitable.

You will notice that none of this has anything to do with GMOs. But let’s get back to the first strategy and see why it is flawed and can be fixed by talking to a farmer.

One anti-GMO claim is that farmers don’t like to have to buy their seeds from big companies. They would rather save their seeds to plant the next year. There are two reasons why this argument fails as an anti-GMO argument. One is that farmers have been buying their seeds for decades, again – long before GMOs came on the scene. In the 1990s (before GMOs) greater than 90% of all seeds planted in developed countries were hybrids, and hybrid seeds are patented and owned by seed companies. GMOs literally changed nothing. Also, you cannot replant hybrid seeds because the hybrid traits do not breed through. They are worthless for replanting.

Further, farmers generally don’t want to save their seeds, store them over winter, keeping them dry and vermin-free. This is a lot of work. It’s easier just to buy fresh seeds each season. Again, there will be exceptions for some crops and some farmers, but they can still do that if they wish. They can preserve their heirloom crops in this way, no one is stopping them.

Another claim is that GMOs hurt farmers, because they are expensive. But farmers buy GMOs because they are more profitable. In a 2022 study:

Over the period 1996 to 2020, the economic benefits have been significant with farm incomes for those using the technology having increased by $261.3 billion US dollars. This equates to an average farm income gain across all GM crops grown in this period of about $112/hectare.

So the narrative that farmers are forced to buy GMO seeds they don’t want, it costs them money, and they are prevented from saving and replanting seeds is completely false. A basic understanding of the farming industry would correct this false narrative – i.e., talk to an actual farmer. Further, use of some GMO crops makes farming outcomes more predictable, which is critical to farmers. They are less likely to lose their crop to pests or drought. GMOs make it easier to do no-til farming, and to use less pesticide, which saves on labor.

In terms of the effect of GMOs on small-scale farmers specifically:

The most significant advantages of GM crops include being independent to farm size, environment protection, improvement of occupational health issues, and the potential of bio-fortified crops to reduce malnutrition. Challenges faced by small-scale farmers for adoption of GM crops comprise availability and accessibility of GM crop seeds, seed dissemination and price, and the lack of adequate information.

Like all technologies, smaller farms are less able to afford them and reap their benefits. Of course, this is no reason to ban the technology (there is no discussion of banning other high-tech agricultural technology because it is difficult for small-scale farmers to afford). Again, they have to find a business model that works for their scale. There are challenges for any small business to compete with the big boys.

Finally, there is one thing that some farmers worry about when it comes to GMOs – they can be controversial. But this is a circular argument – they are controversial because they are controversial. This is precisely the strategy of the anti-GMO lobby – demonize GMOs and make them controversial so that the controversy becomes a negative unto itself.

We can talk about the economics of farming, how to protect small farmers, and we can have this discussion in the context of business as a whole. Again – the trend toward consolidation is a general trend across most industries for reasons generic to business, capitalism, and scale. But let’s remove the fake arguments from the GMO discussion. This is not about forcing farmers to buy GMO seeds – they do so voluntarily because they are profitable. Let’s also not pretend that most farmers want to save their seeds but can’t. This is simply not a good business model, and most farmers have abandoned the practice of saving seeds long before GMOs entered the scene. Also, most seeds were patented long before GMO technology.

Most farmers recognize that GMO technology is simply an extension of breeding and cultivation and has resulted in some extremely useful cultivars, with more to come. Abandoning GMOs will hurt farmers, will reduce food production, and will hurt the environment.

 

 

The post GMOs – Ask a Farmer first appeared on NeuroLogica Blog.

Categories: Skeptic

The Properties of 1.2 Million Solar System Objects Are Now Contained In A Machine-Readable Database

Universe Today Feed - Tue, 07/30/2024 - 4:42am

Academic research on solar system objects has increased dramatically over the last twenty years. However, information on most of the estimated 1.2 million objects discovered in our solar system has been spread throughout various databases and research papers. Putting all that data into a single data store and making it easy to access would allow researchers to focus on their research rather than on where to collect data. That is the idea behind the Solar System Open Database Network (SsODNet), a project by data scientists at the Observatoire de Paris.

So why is this important? Ease of access to data can lower barriers to entry into the field of researching solar system objects (SSOs), allowing more people to participate in that research. The more people that research SSOs, the more likely we are to spot a potentially dangerous or economically interesting one. 

Additionally, even for researchers already involved in the field, collecting data relevant to their current research can be a time-consuming, manual process. Introducing machine-readable tools like SsODNet can dramatically speed up the time it takes to produce new research on SSOs, enabling those researchers to do better-quality work.

One potential application of the database is AI – how useful can that be?

What parameters would those researchers be looking at? The database includes data on diameter, taxonomy, thermal inertia, rotational period, albedo, and more – the most exciting characteristics scientists want to know about an SSO. To collect this data, the developers, led by Jerome Berthier, combined data from several publicly available databases, such as the Jet Propulsion Laboratory Small Bodies Database and the Lowell Observatory Minor Planet Services, with manual data published in dozens of papers on solar system objects. Many of these preexisting databases also didn’t have machine-friendly systems, meaning that Dr. Berthier and his co-authors had to manually scrape data from them and the manuscripts to include it in SsODNet.

When building out SsODNet itself, machine interfaces were a central tenant of development. It is designed as a web service, with standard machine-interfacing protocols accepted for queries, such as Rest and web services. They also implemented a Python interface called “rocks,” which can be called from a command-line interface.

These simple interfaces combine features the SSO research community has asked for, such as standardizing the names of the 1.2 million objects in the database (called quaero in the program) and providing statistical analyses of a set of objects (ssoBFT). There are also several estimates for what properties might be correct if conflicting data points are found in the literature.

Finding asteroids is the first step in stopping the deadly ones – SsODNet can help with that.

It is still incomplete even with as much data as they could gather on the 1.2 million objects in the database. The authors admit that most of the data points currently in the database are for asteroids since they are most interested in studying the type of object. However, while asteroids make up a large percentage of SSOs, they don’t include comets, satellites, or even planets, though this is planned for future database releases.

However, perhaps the most impressive part of this data collection effort is its ongoing commitment to support. The authors have committed to updating the database with new SSO data weekly (at least to the quaero name resolver) and releasing major monthly updates to the other applications. Doing so would include adding new data from new papers released during that time. Getting the data into a sustainable format to launch the database in the first place was a Herculean effort, and maintaining it for the foreseeable future will be another one. The SSO research community will undoubtedly thank them for it.

Learn More:
Berthier et al. – SsODNet: Solar system Open Database Network
Solar System Portal – SsODNet
UT – Solar System Guide
UT – Want to be an asteroid miner? There’s a database for that.

Lead Image:
Illustration of an interstellar object approaching our solar system.
Credit: Rubin Observatory/NOIRLab/NSF/AURA/J. daSilva

The post The Properties of 1.2 Million Solar System Objects Are Now Contained In A Machine-Readable Database appeared first on Universe Today.

Categories: Science

How does the Olympics test for doping and is it good enough?

New Scientist Feed - Tue, 07/30/2024 - 4:37am
Measures are in place to prevent athletes from using performance-enhancing drugs at the Olympic Games, but concerns linger over the use of CRISPR to edit genes and even the inhalation of carbon monoxide
Categories: Science

Oldest rocks on Earth may contain strange and ancient life forms

New Scientist Feed - Tue, 07/30/2024 - 3:00am
Fossils in rocks that are 3.8 billion years old have puzzled biologists as they look nothing like modern cells, but now it seems they may be an ancient precursor life form that was unable to control its structure
Categories: Science

Skeptoid #947: How Your Driving Is Being Tracked

Skeptoid Feed - Tue, 07/30/2024 - 2:00am

Is your phone really tracking your driving habits and selling the data? Maybe more so than you know.

Categories: Critical Thinking, Skeptic

Evolutionary Biology: Why study it? What can it teach us about finding life beyond Earth?

Universe Today Feed - Mon, 07/29/2024 - 6:50pm

Universe Today has had the incredible opportunity of exploring various scientific fields, including impact craters, planetary surfaces, exoplanets, astrobiology, solar physics, comets, planetary atmospheres, planetary geophysics, cosmochemistry, meteorites, radio astronomy, extremophiles, organic chemistry, black holes, cryovolcanism, planetary protection, dark matter, supernovae, neutron stars, and exomoons, and how these separate but unique all form the basis for helping us better understand our place in the universe.

Here, Universe Today discusses the incredible field of evolutionary biology with Dr. David Baum, who is a Professor of Botany at the University of Wisconsin-Madison, regarding the importance of studying evolutionary biology, his career highlights, what evolutionary biology can teach us about finding life beyond Earth, and what advice he can offer upcoming students who wish to pursue studying evolutionary biology. Therefore, what is the importance of studying evolutionary biology?

Dr. Baum tells Universe Today, “Humans and all living species are the products of evolution, so what could be more important than understanding how evolution works and yielded such amazing organisms and ecosystems! Most of biology is concerned with How questions, such as: How do we fight off infections? How do animals pick mates? How do plants use light energy to convert carbon dioxide and water into plant matter?”

Dr. Baum continues, “Evolutionary biologists ask Why questions. When we do that, the answer can be either historical or general ahistorical. In either case, evolutionary models enrich our understanding of the natural world. Evolution also helps us make predictions, such as the almost inevitable evolution of resistance to antibiotics, pesticides, herbicides, etc.”

The field of evolutionary biology, also called evolution by natural selection, was kickstarted in 1859 by Charles Darwin who famously crafted the notion of evolution by natural selection with his book On the Origin of Species. While groundbreaking, this new insight into the evolution of life was not accepted by the academic community as its own field until the 1930s, and waited another five decades until departments of evolutionary biology were created within the university system, as well.

Since then, the field of evolutionary biology has “evolved” into better understanding speciation, sexual reproduction, ageing, and cooperation, while incorporating fields like computer science and molecular genetics into answering these questions. It involves the study of various types of evolution, including adaptive, convergent, divergent, and coevolution, which attempt to explain how life evolves over time based on its environment, species, and interactions. Additionally, the field of medicine uses evolutionary biology to gain greater insights into evolutionary medicine and evolutionary therapies. Therefore, what are some of the career highlights that Dr. Baum has encountered while studying evolutionary biology?

Dr. Baum tells Universe Today, “Too many to recount, but perhaps the best was proposing a hypothesis for how complex cells with nuclei might have originated in 2014 and then having researchers discover a new group of organisms in 2015 that, when visualized in 2020, supported our model surprisingly well to the point where textbooks on the subject were rewritten!”

As its name implies, the field of evolutionary biology involves studying how biology evolves over time, ranging anywhere from thousands to billions of years. Evolutionary biologists aim to understand the processes that allowed life on the Earth to evolve from the first single-celled organisms that existed early in our planet’s history to the millions of complex species that inhabit our planet today. But despite the Earth being the only known planetary body with life, the questions that drive the field of evolutionary biology span beyond the confines of our small, blue world. In doing so, evolutionary biologists ask if these same processes could have allowed life to emerge on other planetary bodies, including the planets Mars and Venus, and even moons like Europa and Titan.

Today, the planet Mars is a dry, cold, and desolate world, but could life have formed billions of years ago after the Red Planet’s own formation? And while the surface of Venus exhibits extreme temperatures and pressures where life as we know it cannot exist, what about billions of years ago, as well? And what about Venus’ atmosphere, which has exhibited evidence that life as we know it might exist today at high altitudes where the conditions are more Earth-like regarding temperature and pressure? Does life exist in the deep oceans of Europa, and what about the liquid methane and ethane lakes and seas on Titan? Armed with these burning questions, what can evolutionary biology teach us about finding life beyond Earth?

“My lab is studying how evolution can get started on non-living planets,” Dr. Baum tells Universe Today. “We use both chemical experiments and analytical work that draws on principles from physics and evolutionary theory. I believe that this work will eventually clarify whether some kind of evolving biosphere is inevitable and whether it is likely to be composed of individualized entities, like cells, and whether those units are likely to have some analog of genetic systems. It is too early to know, but I suspect that individualization is likely to be universal, but I am less sure about genetics. We do suspect, however, that without genetic-like systems, cellular complexity is likely to be limited.”

As noted above, the field of evolutionary biology encompasses a wide range of expertise from a myriad of scientific disciplines, including computer science, genetics, and medicine. Additionally, it has enabled the creation of new research fields studying the evolution of robotics, engineering, architecture, and economics. For evolutionary robotics, scientists used the theory of natural selection to improve robots using artificial intelligence (AI) where the algorithms are produced to discard the least efficient robotic designs based on a specific task they’ve been assigned to do, which has allowed engineers to design efficient robots that can function in environments not friendly to humans, like nanoscales or space. Therefore, what advice can Dr. Baum give upcoming students who wish to pursue studying evolutionary biology?

Dr. Baum tells Universe Today, “Read lots of wonderful popular books to get a feel for the underlying principles but be critical of your own thinking – the concept of evolution by natural selection seems simple, but it turns out to be much more subtle and complex that folk usually realize.”

As the field of evolutionary biology continues to grow, expand, and “evolve” and help other scientific fields do the same, so will our understanding of how life on the Earth came to be and potentially on other worlds, as well. In the 165 years since its introduction by Charles Darwin, the field of evolutionary biology has grown to encompass far more than what Darwin potentially imagined, so it’s exciting to think where evolutionary biology will be in the next 165 years, as well.

Dr. Baum concludes by telling Universe Today, “Evolutionary biology is central to the study of why organisms are the way they are, but also underlies the most profound questions in astrobiology and physics: Is there a drive to life in the universe? When a world spawns life, is there a drive to complexity and intelligence? And, by extrapolation, are we alone in the Universe?!”

How will evolutionary biology help us understand our place in the universe in the coming years and decades? Only time will tell, and this is why we science!

As always, keep doing science & keep looking up!

The post Evolutionary Biology: Why study it? What can it teach us about finding life beyond Earth? appeared first on Universe Today.

Categories: Science

Moon and Mars cave exploration could be easier with ReachBot

Universe Today Feed - Mon, 07/29/2024 - 5:59pm

How will future robotic explorers navigate the difficult subterranean environments of caves and lava tubes on the Moon and Mars? This is what a recent study published in Science Robotics hopes to address as a team of researchers from Stanford University investigated the use of a novel robotic explorer called ReachBot, which could potentially use its unique mechanical design to explore deep caves and lava tubes on the Moon and Mars in the future.

Here, Universe Today discusses this incredible research with Dr. Tony Chen, who is a postdoctoral research fellow in the Harvard Microrobotics Laboratory at Harvard University and lead author of the study, regarding the motivation behind developing ReachBot, significant results, what steps he thinks need to be taken for ReachBot to actually go to the Moon, and how ReachBot could contribute to the upcoming Artemis missions. Therefore, what was the motivation behind ReachBot?

Dr. Chen tells Universe Today, “ReachBot started as a NASA NIAC [NASA Innovative Advanced Concepts] project, where the program is focused on the development of far-reaching and long-term technologies. The main motivation behind ReachBot is to enable robotic exploration of previous inaccessible planetary environments (such as lava tubes) that could provide interesting scientific discoveries and advancements.”

What makes ReachBot unique is its ability to maneuver difficult terrain like uneven rock surfaces by using its elongated appendages with pivoting wrists and grippers guided by a series of algorithms to determine the best course of action. This allows ReachBot to contort its body in a variety of ways while traversing both tight and wide areas within a confined space like a tube or cave. The concept of ReachBot for use in Martian lava tubes was discussed in a 2021 study (Dr. Chen as co-author), followed by prototype testing in a 2022 study (Dr. Chen as lead author), prototype improvements in a 2022 study (Dr. Chen as co-author), and further improvements in a 2022 study (Dr. Chen as co-author).

For this study, the researchers conducted field tests of ReachBot and its capabilities within a lava tube in the Lavic Lake volcanic field in the Mojave Desert as an analog for Martian lava tubes while building off the previous studies. This included investigating how ReachBot could predict how it will both grip and grasp rocky surfaces, gripper design, rocky surface site identification and selection, and how ReachBot performed in a lava tube using its extended appendages that enables the robot’s extreme maneuverability. In the end, the researchers found a wide range of possible extensions for ReachBot, along with favoring convex (outward curved) rocky surfaces that could provide stronger grips, as well.

Image of the ReachBot prototype with its extended boom and grabber within a lava tube of the Lavic Lake volcanic field in the Mojave Desert. (Credit: Stanford University Biomimetics and Dextrous Manipulation Lab) Image of grabber attached to extended boom on ReachBot. (Credit: Stanford University Biomimetics and Dextrous Manipulation Lab) Closeup image of grabber attached to extended boom on ReachBot. (Credit: Stanford University Biomimetics and Dextrous Manipulation Lab) Closeup of the ReachBot grabber without the extended boom. (Credit: Stanford University Biomimetics and Dextrous Manipulation Lab) Closeup of the ReachBot grabber without the extended boom testing its dexterity. (Credit: Stanford University Biomimetics and Dextrous Manipulation Lab)

Dr. Chen tells Universe Today, “The lava tubes in the Mojave Desert were chosen because it was a close analogous cave system to what the lava tubes could potentially be like on Mars. It allowed us to bring a partial ReachBot system into this environment and investigate how the various subsystems perform in a realistic environment.”

This study comes as an international team of researchers led by the University of Trento in Italy successfully constructed a 3D map of a lava tube skylight entrance located in the Mare Tranquillitatis pit (MTP) on the Moon using radar data obtained by NASA’s Lunar Reconnaissance Orbiter (LRO). The team determined the lava tube could be tens of meters in length with the skylight itself being almost 100 meters in diameter, noting such lava caves could shield future astronauts from the harsh solar and cosmic radiation that endlessly blasts the lunar surface, thus opening the potential for long-term human exploration of the Moon.

Lava tubes have long been studied for potential future human exploration on both the Moon and Mars, with more than 200 skylights having been observed on the Moon up to this point. Shielding future astronauts from harmful space radiation prevents potentially catastrophic health consequences, including biological effects, radiation sickness, cancer, and death. Being able to send a robotic explorer ahead of time could help astronauts and scientists better determine the most ideal lava caves where astronauts could call home for long-term missions. Therefore, what steps does Dr. Chen believe need to be taken for ReachBot to actually go to the Moon?

“As it currently stands, only a partial prototype of ReachBot has been constructed and tested in a relevant environment,” Dr. Chen tells Universe Today. “There are many other technological developments needed in this project to push it forward. These include but are not limited to the further development of retractable space booms to be more suitable for ReachBot application, full system prototype, and further testing in relevant environments.”

This study also comes as NASA plans to send humans back to the Moon for the first time since 1972 with the agency’s Artemis Program, including landing the first woman and person of color on the lunar surface in history. This program started with the uncrewed Artemis I mission that took the Orion spacecraft, performing a couple flybys of the Moon while testing out the various flight hardware during the mission. This will be followed with the crewed Artemis II mission, which is currently scheduled for a September 2025 launch, will consist of a 10-day mission and four astronauts (three from NASA and one from the Canadian Space Agency) who conducts flybys of the Moon without touching down on the surface.

The first crewed landing on the lunar surface will be the Artemis III mission, which is currently scheduled for September 2026, which will occur near the lunar south pole in hopes of extracting water ice hidden within the deep and dark craters known as the permanently shadowed regions (PSRs). While lava caves and tubes are currently not part of the program, how can ReachBot contribute to the upcoming Artemis missions?

“As you noted earlier, ReachBot was originally designed as a concept to explore Martian lava tubes,” Dr. Chen tells Universe Today. “But there are also lava tubes on the Moon that ReachBot could also provide interesting capabilities to explore. These lava tubes could potentially be a habitat for future space explorers, and ReachBot can help both exploring these caves to provide crucial data and forceful manipulation capabilities for potential construction tasks.”

How will ReachBot help improve lava cave exploration on the Moon and Mars in the coming years and decades? Only time will tell, and this is why we science!

As always, keep doing science & keep looking up!

The post Moon and Mars cave exploration could be easier with ReachBot appeared first on Universe Today.

Categories: Science

Chance of Auroras in the Next 48 Hours

Science blog of a physics theorist Feed - Mon, 07/29/2024 - 3:17pm

After a few significant solar flares over the past few days, the chances of auroras (i.e. northern and southern lights) is high enough that it’s probably worth keeping an eye on polar skies for the next couple of nights. At the moment the forecast is for the best chances to be in Asia, but forecasting auroras is far from an exact science, and there could be surprises.

The Aurora Borealis, or Northern Lights, shines above Bear Lake, Alaska. USAF photo: credit Senior Airman Joshua Strang

To know when to start looking, I keep an eye on data from the ACE satellite.  When a cloud of slow particles from a solar flare’s coronal mass ejection arrives, ACE’s data goes all haywire; you’ll see it as a sudden change in the plots’ appearance, as shown below. ACE satellite sits 950 thousand miles [1.5 million kilometers] from Earth, and is located between Earth and the Sun.  At that vantage point, it gives us (and our other satellites) a little early warning, of up to an hour.

Another good place to look is NOAA’s space weather dashboard. Its first panel, an example of which is shown below, displays three plots; the bottom plot is called “Geomagnetic Activity”. When that plot goes deep orange or red, then there’s probably some serious auroras going on in areas where they aren’t so often seen.

But be warned — the plot shows not what is happening now but what happened in a three-hour interval that is already past. If a geomagnetic storm is long enough, that’s still useful, but be aware that the data is out of date by the time we get to see it. That’s why the ACE satellite may well give you the best heads-up.

Categories: Science

Ozempic and Wegovy could help people quit smoking

New Scientist Feed - Mon, 07/29/2024 - 3:00pm
Semaglutide-based medicines such as Ozempic and Wegovy, which can help people lose weight, may also reduce tobacco cravings
Categories: Science

Dark matter: A camera trap for the invisible

Matter and energy from Science Daily Feed - Mon, 07/29/2024 - 2:34pm
AI-powered image recognition could give researchers a new tool in hunt for dark matter.
Categories: Science

Dark matter: A camera trap for the invisible

Computers and Math from Science Daily Feed - Mon, 07/29/2024 - 2:34pm
AI-powered image recognition could give researchers a new tool in hunt for dark matter.
Categories: Science

Dark matter: A camera trap for the invisible

Space and time from Science Daily Feed - Mon, 07/29/2024 - 2:34pm
AI-powered image recognition could give researchers a new tool in hunt for dark matter.
Categories: Science

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