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kottke.org posts about science

Date of Viking Visit to North America Pinpointed to 1021 AD

posted by Jason Kottke   Oct 20, 2021

Using samples of chopped-down wood left behind by Viking explorers at their settlement in Newfoundland and known chemical markers of powerful solar storms in 993 AD, a group of scientists has determined the exact timing of the first-known visit of Europeans to North America: 1021 AD. If you’re keeping score at home, that’s 471 years before Columbus.

A team of scientists looked at wood found at the L’Anse aux Meadows Viking site. In three cases the trees had been physically cut down, and moreover, they were clearly cut with metal tools — Vikings had metal implements at the time, but indigenous people did not. The wood was all from different trees (one was fir, and another juniper, for example). The key parts here are that the wood was all from trees that had been alive for many decades, and all had their waney edge intact as well.

The scientists extracted 127 samples from the wood, and 83 rings were examined. They used two methods to secure dates. The first was to compare the amount of carbon-14 in each ring with known atmospheric amounts from the time. This gives a rough date for the waney edge of the wood. They also then looked for an anomalous spike in carbon-14 in an inner ring, knowing this would have come from the 993 A.D. event, and then simply counted the rings outward from there to get the date of the waney edge.

In all three samples the waney edge was dated to the same year: 1021 A.D. This would be incredibly unlikely to occur at random.

Outstanding science. It’s incredible how much of a time machine these analysis tools are. There’s so much we don’t know about people who lived 1000 years ago, but it’s astounding that we know anything at all, particularly precise dates like this.

The Sounds from Mars

posted by Jason Kottke   Oct 19, 2021

For the last nine months, NASA’s Perseverance rover has been rolling around on Mars taking photos and doing science. It’s also been recording audio of its environment with a pair of microphones and in this video, a pair of NASA scientists share some of those recordings and what we might learn about Mars from them.

This is one of my absolute favorite sounds. This is the sound of a helicopter flying on Mars. We used this sound to actually understand the propagation of sound in general through the Martian atmosphere, and it turns out that we were totally wrong with our models. The Martian atmosphere can propagate sound a lot further than we thought it could.

And surprisingly for me, that’s my friend Nina in the video! (We eclipse-chased together in 2017.) I knew she was working on the rovers but didn’t know she was going to pop up in this video I found on Twitter this morning. Fun!

Reimagining Dinosaurs

posted by Jason Kottke   Oct 13, 2021

The fossil record has provided us with so much information about plants, animals, and organisms that lived hundreds, thousands, millions, and even billions of years ago. But we are actually only seeing evidence of a tiny fraction of the species that lived then and even for those we do know about, there’s often much we still don’t know. Traditionally, dinosaurs have been depicted as drab and often terrible lizards but recent finds of soft tissues (skin, feathers, etc.) and an increased sense of imagination based on our current vibrant biodiversity has people thinking differently about how they looked and behaved.

Fuzzy Moths Taking Flight in Super Slow Motion

posted by Jason Kottke   Oct 13, 2021

In trying to explain what you’re about to see here, I cannot improve upon the Dr. Adrian Smith’s narration at the beginning of this video:

But sometimes I think the most useful thing I can do as a scientist is to point the fancy science cameras at some moths flapping their wings in front of a purple backdrop. I mean, whose day isn’t going to be better after watching a pink and purple rosy maple moth flying in super slow motion? This is a polyphemus moth, a gigantic species of silk moth. What you are seeing, like all the rest of the clips in this video, was filmed at 6,000 frames per second.

Most of the moths in the video are delightfully fuzzy and chonky — if these moths were birds, they’d be birbs. Shall we call them mopfs?

The rest of Smith’s AntLab videos are worth looking through — I’ve previously posted about his slow motion videos here. (via aeon)

Flat Earth FC

posted by Jason Kottke   Oct 08, 2021

From 2019 to 2021, a small Spanish football team was renamed Flat Earth FC, both as a publicity stunt and because club president Javi Poves couldn’t understand how water “curves”.

“Football is the most popular sport and has the most impact worldwide, so creating a club dedicated to the flat earth movement is the best way to have a constant presence in the media,” said Poves earlier this year. “Flat Earth FC is the first football club whose followers are united by the most important thing, which is an idea.”

The club’s crest is now a circular image of the earth, pressed flat on to all kits, and fans are encouraged to spark regular conversations in their pursuit of answers from the powers that be. The team mascot? An astronaut. It’s a radical move, but the club is bringing in supporters from afar. “It’s really amazing to be part of this amazing movement,” says Flat Earth player Mario Cardete. “I think it’s more than a club.”

During the pandemic, the club also became anti-mask and anti-vax — because conspiracy theories come in price-saving 3-packs, I guess? Poves resigned in late 2020 and the club was renamed and then purchased by a larger club to become their reserve team. The Earth remains round.

What Would Life on a Flat Earth Be Like?

posted by Jason Kottke   Oct 05, 2021

So let’s say, for the sake of argument and against all scientific evidence to the contrary, the Earth was flat instead of being an oblate spheroid. What would life on a flat Earth be like? Well for one thing, gravity would present some challenges. From a 2018 piece by Doug Main at the Columbia Climate School:

People who believe in a flat Earth assume that gravity would pull straight down, but there’s no evidence to suggest it would work that way. What we know about gravity suggests it would pull toward the center of the disk. That means it would only pull straight down at one point on the center of the disk. As you got increasingly far from the center, gravity would tug more and more horizontally. This would have some strange impacts, like sucking all the water toward the center of the world, and making trees and plants grow diagonally, since they develop in the opposite direction of gravity’s pull.

And even more than that, gravity would tend to pull a flat disc shape back into a spheroid, so absent an intense spinning force (for which there is zero evidence) or some other completely unknown effect, a flat Earth couldn’t even exist:

For Earth to take the shape of a flat disk in the first place, gravity — as we know it — must be having no effect. If it did, it would soon pull the planet back into a spheroid.

A flat Earth would also likely not have a magnetic field (or at least one that is scientifically possible), meaning no atmosphere:

Deep below ground, the solid core of the Earth generates the planet’s magnetic field. But in a flat planet, that would have to be replaced by something else. Perhaps a flat sheet of liquid metal. That, however, wouldn’t rotate in a way that creates a magnetic field. Without a magnetic field, charged particles from the sun would fry the planet. They could strip away the atmosphere, as they did after Mars lost its magnetic field, and the air and oceans would escape into space.

Oh and no tectonic plates, volcanos, mountains, etc. Or GPS. Or weather. Or satellites. Or different night skies in, say, South Africa and Denmark. Or the Sun behaving the way it does in respect to the Earth. Or air travel. Or plant and animal life as it exists presently. To suppose a flat Earth also supposes that physics doesn’t explain our observable universe the way in which it reliably and comprehensively does. The simplest, best evidence for a round Earth is that we’re here living on it in the manner in which we are living on it.

A million people can call the mountains a fiction, yet it need not trouble you as you stand atop them.

See also What If the Earth Suddenly Turned Flat?, Flat Earthers and the Double-Edged Sword of American Magical Thinking, and Flat Earthers Listening to Daft Punk.

The Simple Physics Trick That Helps Trains Stay on Their Tracks

posted by Jason Kottke   Oct 04, 2021

Train wheels do not sit completely flat on the tracks — they’re designed with a slight taper that increases the stability of the train and allows the train to go around curves without any of the wheels skidding. In this short video, Tadashi Tokieda explains how those conical wheels keep trains on track.

See also Richard Feynman’s explanation of this and this science project at Scientific American. (via the prepared)

“Profoundly Unequal” US is Unprepared for the Next Pandemic

posted by Jason Kottke   Sep 29, 2021

Ed Yong: We’re Already Barreling Toward the Next Pandemic. The US is throwing too little money at high-tech, ultimately private sector solutions but much of the problem comes down to our underfunded public health system and “profoundly unequal society”.

“To be ready for the next pandemic, we need to make sure that there’s an even footing in our societal structures,” Seema Mohapatra, a health-law expert at Indiana University, told me. That vision of preparedness is closer to what 19th-century thinkers lobbied for, and what the 20th century swept aside. It means shifting the spotlight away from pathogens themselves and onto the living and working conditions that allow pathogens to flourish. It means measuring preparedness not just in terms of syringes, sequencers, and supply chains but also in terms of paid sick leave, safe public housing, eviction moratoriums, decarceration, food assistance, and universal health care. It means accompanying mandates for social distancing and the like with financial assistance for those who might lose work, or free accommodation where exposed people can quarantine from their family. It means rebuilding the health policies that Reagan began shredding in the 1980s and that later administrations further frayed. It means restoring trust in government and community through public services. “It’s very hard to achieve effective containment when the people you’re working with don’t think you care about them,” Arrianna Marie Planey, a medical geographer at the University of North Carolina at Chapel Hill, told me.

How to Solve Thorny Global Problems

posted by Jason Kottke   Sep 22, 2021

Within the past 50 years, the global community has solved two huge problems that had the potential to harm every person on Earth. Smallpox once killed 30% of the people who contracted the disease but through the invention of an effective, safe vaccine and an intense effort that began in the 1960s, smallpox was completely eradicated by 1980. In the 1980s, scientists discovered a hole in the ozone layer that protects the Earth from UV radiation; further depletion would have caused major problems with the world’s food supply and an epidemic of skin cancer. Forty years later, we’ve virtually eliminated the chemicals causing the depletion and ozone losses have stabilized and have recently shown improvement.

So how did we do it? The short video above talks through each of challenges, how they were met (science + politics + a bit of luck), and how we might apply these lessons to the big problems of today (climate emergency, the pandemic).

Here’s Why You’ll Fail the Milk Crate Challenge

posted by Jason Kottke   Sep 10, 2021

Bored of dying from Covid-19, Americans have dreamed up a more entertaining way to mortally wound themselves: the milk crate challenge. Wired asked structural engineer Dr. Nehemiah Mabry (who explained the different types of bridges to us earlier in the year) to explain the physics behind the challenge and why you shouldn’t attempt it. (via @pomeranian99)

This Virus Shouldn’t Exist (But it Does)

posted by Jason Kottke   Sep 08, 2021

In one of their most popular videos in awhile, kottke.org favorite Kurzgesagt tells us about something I’d never heard of before: giruses. These giant viruses have only been discovered within the last 20 years and are so large and contain so much genetic material that maybe they are actually alive?

Hidden in the microverse all around you, there is a merciless war being fought by the true rulers of this planet, microorganisms. Amoebae, protists, bacteria, archaea and fungi compete for resources and space. And then there are the strange horrors that are viruses, hunting everyone else. Not even being alive, they are the tiniest, most abundant and deadliest beings on earth, killing trillions every day. Not interested in resources, only in living things to take over. Or so we thought.

It turns out that there are giant viruses that blur the line between life and death — and other viruses hunting them.

Even with Delta Variant, the Amazing Vaccines Are Saving Lives

posted by Jason Kottke   Aug 25, 2021

It may seem like sometimes that with the pandemic, we’re back to square one. With the much more contagious Delta variant in play and an increasing number of breakthrough infections, the efficacy of these vaccines that we thought were amazing maybe aren’t? (Or maybe we just need to readjust our expectations?) But in terms of what these vaccines were specifically developed for — reducing & preventing severe disease and death — they are still very much doing their job. Just take a look at this graph from a White House Covid-19 press briefing yesterday:

a graph of Covid-19-associated hospitalizations among unvaccinated and fully vaccinated in the US

Even with Delta endemic in the country, the vaccines are providing extraordinary protection against infections severe enough to land folks in the hospital. In a recent CDC study of infections and hospitalizations in Los Angeles County, they report that on July 25, the hospitalization rate of unvaccinated people was 29.2 times that of fully vaccinated persons. 29 times the protection is astounding for a medical intervention. These vaccines work, we’re lucky to have them, and we need to get as many people worldwide as we can vaccinated as quickly as we can. Period.

1800s Astronomical Drawings vs. Modern NASA Images

posted by Jason Kottke   Aug 23, 2021

I love this post from the NYPL comparing astronomical drawings by E.L. Trouvelot done in the 1870s to contemporary NASA images.

Trouvelot was a French immigrant to the US in the 1800s, and his job was to create sketches of astronomical observations at Harvard College’s observatory. Building off of this sketch work, Trouvelot decided to do large pastel drawings of “the celestial phenomena as they appear…through the great modern telescopes.”

He made drawings of Saturn, Jupiter, aurora borealis, the Milky Way, and more. Here’s his incredible drawing of sun spots compared to a recent image of the Sun’s surface:

a drawing of sun spots

the sun

And his drawing of a solar eclipse compared to a recent image:

a drawing of a total solar eclipse

modern photo of a solar eclipse

Check out the post for more examples of Trouvelot’s work.

What’s the Proper Metaphor for the Covid Vaccine?

posted by Jason Kottke   Aug 13, 2021

For The Atlantic, Katherine Wu writes about the difficulty of communicating how vaccines work and how they protect individuals and communities from disease: Vaccines Are Like Sunscreen… No, Wait, Airbags… No, Wait…

Unfortunately, communal benefit is harder to define, harder to quantify, and harder to describe than individual protection, because “it’s not the way Americans are used to thinking about things,” Neil Lewis, a behavioral scientist and communications expert at Cornell, told me. That’s in part because communal risk isn’t characteristic of the health perils people in wealthy countries are accustomed to facing: heart disease, stroke, diabetes, cancer. Maybe that’s part of why we gravitate toward individual-focused comparisons. Slipping into a pandemic-compatible, population-based frame of mind is a big shift. In the age of COVID-19, “there’s been a lot of focus on the individual,” Lewis told me. That’s pretty at odds “with how infection works.”

As someone who has struggled with analogizing the virus & vaccines, I was nodding my head a lot while reading this. Something I’ve noticed in recent years that Wu didn’t get into is that readers desire precision in metaphors and analogies, even though metaphor is — by definition! — not supposed to be taken literally. People seem much more interested in taking analogies apart, identifying what doesn’t work, and discarding them rather than — more generously and constructively IMO — using them as the author intended to better understand the subject matter. The perfect metaphor doesn’t exist because then it wouldn’t be a metaphor.

Animals Are Getting Smaller as the Planet Warms

posted by Jason Kottke   Aug 13, 2021

One of the many effects of human-driven climate change is that, on average, the bodies of animals are getting smaller — birds, fish, deer, frogs, rodents, insects. And these changes could have large and unpredictable consequences.

“That’s the problem with human-driven climate change. It’s the rate of change that’s just orders of magnitude faster than what the natural world has had to deal with in the past. Size is really important to survival, and you can’t just change that indefinitely without consequence. For one thing, I don’t think it’s feasible that species are going to be able to continue to get smaller and maintain things like a migration from one hemisphere to another.”

And since smaller bodies can hold fewer eggs, they result in fewer offspring, and a lower population size in the long run. For amphibians who need to keep their skin wet in order to breathe, shrinking can mean higher chances of drying out in a drought because their bodies absorb and hold smaller quantities of water.

But the more concerning consequences have to do with how this could destabilize relationships between species. Because shrinking plays out at different rates for different species, predators might have to eat more and more of shrinking prey, for example, throwing a finely-tuned ecosystem off balance.

Getting into the Delta Variant Mindset

posted by Jason Kottke   Aug 12, 2021

I’m just going to go ahead and say it right up front here: if you had certain expectations in May/June about how the pandemic was going to end in the US (or was even thinking it was over), you need to throw much of that mindset in the trash and start again because the Delta variant of SARS-CoV-2 has changed the game. I know this sucks to hear,1 but Delta is sufficiently different that we need to reset and stop assuming we can solely rely on the vaccines to stop Covid-19 from spreading. Ed Yong’s typically excellent piece on how delta has changed the pandemic’s endgame is helping me wrap my head around this.

But something is different now — the virus. “The models in late spring were pretty consistent that we were going to have a ‘normal’ summer,” Samuel Scarpino of the Rockefeller Foundation, who studies infectious-disease dynamics, told me. “Obviously, that’s not where we are.” In part, he says, people underestimated how transmissible Delta is, or what that would mean. The original SARS-CoV-2 virus had a basic reproduction number, or R0, of 2 to 3, meaning that each infected person spreads it to two or three people. Those are average figures: In practice, the virus spread in uneven bursts, with relatively few people infecting large clusters in super-spreading events. But the CDC estimates that Delta’s R0 lies between 5 and 9, which “is shockingly high,” Eleanor Murray, an epidemiologist at Boston University, told me. At that level, “its reliance on super-spreading events basically goes away,” Scarpino said.

In simple terms, many people who caught the original virus didn’t pass it to anyone, but most people who catch Delta create clusters of infection. That partly explains why cases have risen so explosively. It also means that the virus will almost certainly be a permanent part of our lives, even as vaccines blunt its ability to cause death and severe disease.

And a reminder, as we “argue over small measures” here in the US, that most of the world is in a much worse place:

Pandemics end. But this one is not yet over, and especially not globally. Just 16 percent of the world’s population is fully vaccinated. Many countries, where barely 1 percent of people have received a single dose, are “in for a tough year of either lockdowns or catastrophic epidemics,” Adam Kucharski, the infectious-disease modeler, told me. The U.S. and the U.K. are further along the path to endemicity, “but they’re not there yet, and that last slog is often the toughest,” he added. “I have limited sympathy for people who are arguing over small measures in rich countries when we have uncontrolled epidemics in large parts of the world.”

Where I think Yong’s piece stumbles a little is in its emphasis of the current vaccines’ protection against infection from Delta. As David Wallace-Wells explains in his piece Don’t Panic, But Breakthrough Cases May Be a Bigger Problem Than You’ve Been Told, vaccines still offer excellent protection against severe infection, hospitalization, and death, but there is evidence that breakthrough infections are more common than many public health officials are saying. The problem lies with the use of statistics from before vaccines and Delta were prevalent:

Almost all of these calculations about the share of breakthrough cases have been made using year-to-date 2021 data, which include several months before mass vaccination (when by definition vanishingly few breakthrough cases could have occurred) during which time the vast majority of the year’s total cases and deaths took place (during the winter surge). This is a corollary to the reassuring principle you might’ve heard, over the last few weeks, that as vaccination levels grow we would expect the percentage of vaccinated cases will, too — the implication being that we shouldn’t worry too much over panicked headlines about the relative share of vaccinated cases in a state or ICU but instead focus on the absolute number of those cases in making a judgment about vaccine protection across a population. This is true. But it also means that when vaccination levels were very low, there were inevitably very few breakthrough cases, too. That means that to calculate a prevalence ratio for cases or deaths using the full year’s data requires you to effectively divide a numerator of four months of data by a denominator of seven months of data. And because those first few brutal months of the year were exceptional ones that do not reflect anything like the present state of vaccination or the disease, they throw off the ratios even further. Two-thirds of 2021 cases and 80 percent of deaths came before April 1, when only 15 percent of the country was fully vaccinated, which means calculating year-to-date ratios means possibly underestimating the prevalence of breakthrough cases by a factor of three and breakthrough deaths by a factor of five. And if the ratios are calculated using data sets that end before the Delta surge, as many have been, that adds an additional distortion, since both breakthrough cases and severe illness among the vaccinated appear to be significantly more common with this variant than with previous ones.

Vaccines are still the best way to protect yourself and your community from Covid-19. The vaccines are still really good, better than we could have hoped for. But they’re not magic and with the rise of Delta (and potentially worse variants on the horizon if the virus is allowed to continue to spread unchecked and mutate), we need to keep doing the other things (masking, distancing, ventilation, etc.) in order to keep the virus in check and avoid lockdowns, school closings, outbreaks, and mass death. We’ve got the tools; we just need to summon the will and be in the right mindset.

  1. In a tweet introducing his piece, Yong says “Many folks are upset & confused by the last month” and that’s right where I am with this. Maybe you are too. I’m expecting to get angry email about this post, calling it alarmist. But Covid is different now and thinking our same March 2021 thoughts about it isn’t going to help ourselves, our families, or our communities. The sooner we can regroup, the better.

How the Human Immune System Works

posted by Jason Kottke   Aug 10, 2021

In the first part of a multi-video series on how the human immune system works, Kurzgesagt describes how the system’s first lines of defense work when your body is invaded by microorganisms.

The human immune system is the most complex biological system we know, after the human brain, and yet, most of us never learn how it works. Or what it is. Your immune System consists of hundreds of tiny and two large organs, it has its own transport network spread throughout your body. Every day it makes hundreds of billions of fresh cells.

It is not some sort of abstract entity. Your immune system is YOU. Your biology protecting you from the billions of microorganisms that want to consume you and from your own perverted cells that turn into cancer.

Kurzgesagt founder Philipp Dettmer is publishing a companion book to the series, Immune: A Journey Into the Mysterious System That Keeps You Alive; it’s out in late September.

I have read a lot about the human immune system over the past 18 months, but this video was still helpful in understanding how it all fits together. For more information, consult their extensive list of sources or watch their earlier video on what the SARS-CoV-2 virus does to a human body.

Size Comparison: The Largest Black Hole in the Universe

posted by Jason Kottke   Aug 04, 2021

Black holes are the largest single objects in the universe, many times larger than even the biggest stars, and have no upper limit to their size. But practically, how big is the biggest, heaviest black hole in the universe? (A: More massive than the entire Milky Way.)

The largest things in the universe are black holes. In contrast to things like planets or stars they have no physical size limit, and can literally grow endlessly. Although in reality specific things need to happen to create different kinds of black holes, from really tiny ones to the largest single things in the universe. So how do black holes grow and how large is the largest of them all?

Videos about space are where Kurzgesagt really shines. I’ve seen all their videos about black holes and related objects, and I always pick up something I never knew whenever a new one comes out. This time around, it was quasistars and the surprisingly small mass of supermassive black holes located at galactic centers compared to the galaxies themselves.

“If It Doesn’t Shine In Your Face, You Don’t See Anything”

posted by Jason Kottke   Jul 28, 2021

Jocelyn Bell Burnell as a graduate student

As I’ve written before, in the history of astronomy and astrophysics, women have made major discoveries and played a significant role in advancing our understanding of the universe but have often not gotten the recognition their male peers enjoy. In 1967, while she was working on her doctoral research with her advisor Antony Hewish, Jocelyn Bell Burnell (then Jocelyn Bell) discovered a new and unusual kind of object, the pulsar. In this short documentary, Bell Burnell shares her story — how she got interested in radio astronomy, the prejudice with which she was treated as the only woman in her university program, how she discovered the first pulsar and persisted (more than once) through Hewish’s assertions that the object was “interference”, and how she was passed over for the Nobel Prize for her discovery.

In 2018, Bell Burnell was awarded the Special Breakthrough Prize in Fundamental Physics “for fundamental contributions to the discovery of pulsars, and a lifetime of inspiring leadership in the scientific community”, joining past honorees like the LIGO team, Stephen Hawking, and the team that discovered the Higgs boson. She donated the entire $3 million prize to the Institute of Physics to help support “PhD physics students from under-represented groups” with their educations.

It’s not justice, but I will note that Bell Burnell’s Wikipedia page is longer and more substantial than Hewish’s, despite his Nobel.

Living with Delta

posted by Jason Kottke   Jul 21, 2021

This piece by Susan Matthews is really helpful for those of us who are vaccinated and trying to figure out what their risks are regarding the much more transmissible delta variant of SARS-CoV-2. Covid-19 is endemic now — how do we live with that? What reasonable actions should we take to keep ourselves, our communities, and our loved ones safe?

All of this is making people — yes, probably mostly vaccinated people — rethink the basic questions they thought their vaccine had answered for them: Can I go to restaurants and bars unmasked? Can I go back to the office? Can I see my grandma? Can I go on vacation? Can I unmask at my people-facing job? Can I have a wedding, or a party? The answer to those questions is not quite as easy as “yes, if you’re vaccinated.” It depends partly on how many in your group are vaccinated, but the actual answer is basically the same as it’s been all pandemic: It depends on your risk tolerance, it depends on what is happening with case counts locally (though, as more people travel, this might become a less reliable tool), and it depends on any unique risk factors in your group. Kass’ perspective felt novel to me: She said she suspects that in the end, a lot of people are going to end up boosting their immunity by suffering through a mild case of COVID. So no one should feel that bad about getting sick after they’re vaxxed. What matters is getting the order right: “If everyone who gets vaccinated still gets COVID but doesn’t die, that’s a success,” she said. The issue is that it doesn’t feel like a success for vaccinated people. Plus, “if you get infected after you’re vaxxed, it’s all you talk about,” she said. And right now, that’s understandably freaking out a lot of vaccinated people who thought they were in the clear.

Long Covid isn’t mentioned anywhere in here though — surely that has to be part of the conversation here (although anecdotally it doesn’t seem like too much of a worry).

Swimming Tentacled Droplets

posted by Jason Kottke   Jul 19, 2021

Well, this is really quite odd. A group of scientists discovered that if they cool ordinary oily droplets floating in water down to around 2-8°C, they change shape, grow tentacles, and propel themselves around like tiny little sci-fi creatures.

Some of the particles’ facets grow while other shrink, producing a variety of geometrical forms such as kites, isosceles triangles and spiked tetrahedra. Then, from some of the sharp corners emerge tentacle-like strands, as if being extruded from a nozzle. As they grow, the strands bend into undulating shapes — and the droplets start to swim, propelled through the fluid by the tentacles’ extension.

Visualization of How Fast a Ball Drops on Various Solar System Bodies

posted by Jason Kottke   Jul 14, 2021

This is an animation of how quickly an object falls 1 km to the surfaces of solar system objects like the Earth, Sun, Ceres, Jupiter, the Moon, and Pluto. For instance, it takes 14.3 seconds to cover that distance on Earth and 13.8 seconds on Saturn.

It might be surprising to see large planets have a pull comparable to smaller ones at the surface, for example Uranus pulls the ball down slower than at Earth! Why? Because the low average density of Uranus puts the surface far away from the majority of the mass. Similarly, Mars is nearly twice the mass of Mercury, but you can see the surface gravity is actually the same… this indicates that Mercury is much denser than Mars.

(via @thekidshouldsee)

Where Did SARS-CoV-2 Come From?

posted by Jason Kottke   Jun 28, 2021

Over the past several months, I’ve read several pieces about the possible origins of SARS-CoV-2 and have been frustrated with the certainty with which folks who should know better have embraced the “lab leak hypothesis”. So, I was happy to see Zeynep Tufekci’s characteristically even-handed and comprehensive overview of the evidence about the virus’s origins in the NY Times.

While the Chinese government’s obstruction may keep us from knowing for sure whether the virus, SARS-CoV-2, came from the wild directly or through a lab in Wuhan or if genetic experimentation was involved, what we know already is troubling.

Years of research on the dangers of coronaviruses, and the broader history of lab accidents and errors around the world, provided scientists with plenty of reasons to proceed with caution as they investigated this class of pathogens. But troubling safety practices persisted.

Worse, researchers’ success at uncovering new threats did not always translate into preparedness.

Even if the coronavirus jumped from animal to human without the involvement of research activities, the groundwork for a potential disaster had been laid for years, and learning its lessons is essential to preventing others.

Is it possible that SARS-CoV-2 came from a lab? Yes. Is it probable? We can’t know that right now. It’s a tantalizing puzzle involving a possible cover-up, but irresponsibly assigning certainty to the situation does no one but attention-seeking pundits any good.

New USPS Stamps Celebrate the Sun

posted by Jason Kottke   Jun 24, 2021

postage stamp with an image of a plasma blast from the Sun

postage stamp with an image of a solar flare from the Sun

a group of postage stamps featuring images of the Sun

The US Postal Service has released a set of Sun Science stamps that use images from NASA’s Solar Dynamics Observatory to illustrate different solar phenomena like plasma blasts, sunspots, and solar flares.

Printed with a foil treatment that adds a glimmer to the stamps, the images on these stamps come from NASA’s Solar Dynamics Observatory, a spacecraft launched in February 2010 to keep a constant watch on the sun from geosynchronous orbit above Earth. The striking colors in these images do not represent the actual colors of the sun as perceived by human eyesight. Instead, each image is colorized by NASA according to different wavelengths that reveal or highlight specific features of the sun’s activity.

One of the stamps highlights sunspots, two feature images of coronal holes, two show coronal loops, two depict plasma blasts, one is a view of an active sun that emphasizes its magnetic fields, and two show different views of a solar flare.

NASA has more on the science behind the images on the stamps and the whole set of stamps are available for purchase online.

See also A Decade of the Sun.

Dark Fish

posted by Jason Kottke   Jun 23, 2021

Sometimes you run across an aspect of reality and it just completely blows your mind. You’ve heard of dark matter, right? Well, meet dark fish: biologists suspect that up to 95% of the world’s total fish population lives in a deep layer of the ocean that is difficult to detect and we know little about.

An international team of marine biologists has found mesopelagic fish in the earth’s oceans constitute 10 to 30 times more biomass than previously thought.

UWA Professor Carlos Duarte says mesopelagic fish — fish that live between 100 and 1000m below the surface — must therefore constitute 95 per cent of the world’s fish biomass.

“Because the stock is much larger it means this layer must play a more significant role in the functioning of the ocean and affecting the flow of carbon and oxygen in the ocean,” he says.

See also this thread from ocean scientist Andrew Thaler:

There’s a globe-spanning layer of mesopelagic fish that is so dense it distorts SONAR. For decades we had no idea what created the Deep Scattering Layer or why it moved. We still know almost nothing about it.

It’s astounding how much we don’t know about the ocean:

There’s an entire family of whales with at least 22 species that we know almost nothing about.

We know way more about stars that are billions of light years away than about some parts of the ocean a few hundred feet below the surface of our own planet.

See also dark fungi: “By one estimate, there are between 2.2 million and 3.8 million species of fungi — and more than 90% of them aren’t cataloged.”. (via @_zeets & @chadmumm)

Unexpected Minor Planet to Visit the Inner Solar System Soon

posted by Jason Kottke   Jun 21, 2021

Well, this is cool: a recently discovered minor planet estimated to be between 62 and 230 miles across is currently journeying through our solar system and sometime in 2031 will be almost as close to the Sun as Saturn.

And it turns out, astronomers are about to witness the closest pass of this incredible round trip. Currently, 2014 UN271 is about 22 Astronomical Units (AU) from the Sun (for reference, Earth is 1 AU from the Sun). That means it’s already closer than Neptune, at 29.7 AU. And it’s not stopping there — it’s already traveled 7 AU in the last seven years, and at its closest in 2031, it’s expected to pass within 10.9 AU of the Sun, almost reaching the orbit of Saturn.

Before then, it’s expected to develop the characteristic coma and tail of a comet, as icy material on its surface vaporizes from the heat of the Sun. This close pass would give astronomers an unprecedented close look at Oort cloud objects.

C’mon NASA, let’s a get a probe fired up and visit this very unusual object!

There’s No Such Thing as a Tree

posted by Jason Kottke   Jun 16, 2021

Obviously, there are trees. But speaking phylogenetically, trees aren’t a thing. Some things that are trees evolved from things that are not trees and other things that are trees evolved into things that aren’t trees. Confused? This might clear things up.

“Trees” are not a coherent phylogenetic category. On the evolutionary tree of plants, trees are regularly interspersed with things that are absolutely, 100% not trees. This means that, for instance, either:

The common ancestor of a maple and a mulberry tree was not a tree.
The common ancestor of a stinging nettle and a strawberry plant was a tree.
And this is true for most trees or non-trees that you can think of.

See also there’s no such thing as a vegetable and there’s no such thing as a fish.

What would the evolutionary tree of salmon, lungfish, and cows be? The answer, it appears at first glance, is simple. Salmon and lungfish, being fish, would cluster nicely together on one branch, and very non-fishy cows would be off on a separate branch. Right? Wrong. Contrary to what you might expect, what you see above is their evolutionary tree. Working up from the root, the lineage that leads to salmon branches off first. Keep tracing up the tree, and you’ll see that the lineage from which the salmon branched off eventually branches into two new lineages: the one leading to lungfish and the other leading to cows. In other words, a cow and a lungfish are more closely related to one another than either is to salmon.

(via @smorewithface)

The Information Visualization Revolution

posted by Jason Kottke   Jun 14, 2021

a 17th century graph of various estimated distances from Toledo, Spain to Rome

For the New Yorker, Hannah Fry wrote a brief history of information visualization, a quiet innovation that has changed the world:

Van Langren could have put these values in a table, as would have been typical for the time, but, as Friendly and Wainer observe, “only a graph speaks directly to the eyes.” Once the numbers were visualized, the enormous differences among them — and the stakes dependent on those differences — became impossible to ignore. Van Langren wrote, “If the Longitude between Toledo and Rome is not known with certainty, consider, Your Highness, what it will be for the Western and Oriental Indies, that in comparison the former distance is almost nothing.”

Van Langren’s image marked an extraordinary conceptual leap. He was a skilled cartographer from a long line of cartographers, so he would have been familiar with depicting distances on a page. But, as Tufte puts it, in his classic study “Visual Explanations” (1997), “Maps resemble miniature pictorial representations of the physical world.” Here was something entirely new: encoding the estimate of a distance by its position along a line. Scientists were well versed in handling a range of values for a single property, but until then science had only ever been concerned with how to get rid of error — how to take a collection of wrong answers and reduce its dimension to give a single, best answer. Van Langren was the first person to realize that a story lay in that dimension, one that could be physically seen on a page by abstracting it along a thin inked line.

Van Langren’s graph, which Fry says “might be the first statistical graph in history”, is pictured at the top of this post.

Flat-Packed Pastas That Pop Open When Cooked

posted by Jason Kottke   Jun 02, 2021

Flat Packed Pasta

Inspired by space-saving flat-packed furniture, scientists at Carnegie Mellon University have developed a technique for making pasta shapes that start out flat when dry but “morph” into their final 3D shapes when cooked. The secret is stamping different groove patterns into the pasta dough.

The solution: something Wang, Yao, and their co-authors term “groove-based transient morphing.” They found that stamping flat pasta sheets with different groove patterns enabled them to control the final pasta shape after cooking. According to the authors, the grooves increase how long it takes to cook that part of the pasta. So those areas expand less than the smooth areas, giving rise to many different shapes.

The team found that the pasta reached its maximum bending angle after about 12 minutes and retained this angle for around 20 minutes before it began to bend back. The researchers were able to produce simple helical and cone shapes, as well as more complex saddles and twists (the latter achieved by introducing double-sided grooves).

I am assuming those grooves would also aid in holding sauce better, a topic we’ve delved into recently. You can read the full research paper on the morphing pasta here. (via the prepared)

UFOs Are Not Aliens

posted by Jason Kottke   Jun 01, 2021

Due to recent government reports, declassified data, media interest in those data & reports, and a long-simmering interest by the public, UFOs are back in the public imagination. Adam Frank, an astrophysicist at the University of Rochester who is searching for signs of extraterrestrial life, says that there’s little chance that UFOs are aliens.

I understand that U.F.O. sightings, which date back at least to 1947, are synonymous in the popular imagination with evidence of extraterrestrials. But scientifically speaking, there is little to warrant that connection. There are excellent reasons to search for extraterrestrial life, but there are equally excellent reasons not to conclude that we have found evidence of it with U.F.O. sightings.

If UFOs are alien craft, we would never see them:

There are also common-sense objections. If we are being frequently visited by aliens, why don’t they just land on the White House lawn and announce themselves? There is a recurring narrative, perhaps best exemplified by the TV show “The X-Files,” that these creatures have some mysterious reason to remain hidden from us. But if the mission of these aliens calls for stealth, they seem surprisingly incompetent. You would think that creatures technologically capable of traversing the mind-boggling distances between the stars would also know how to turn off their high beams at night and to elude our primitive infrared cameras.

More people talking about a thing doesn’t make it credible. More people talking about potential evidence of a thing doesn’t make it credible. Evidence makes something credible.