Meanwhile, individual beekeeping operations have been damaged, some beyond repair because of this malady. Others have been able to recover. The overall picture is, however, not quite as bleak as the press and the blogosphere might lead you to imagine. Colony numbers in the U.S. show the resiliency of American beekeepers.
The soprano problem is the mispronunciation of lyrics by sopranos at the high end of their range. In order to make themselves heard in opera houses, sopranos need their voices to resonate, which they only do when making certain sounds.
Jane Eaglen, a critically acclaimed soprano who has performed Wagner’s works in opera houses worldwide, explains that sopranos must try to find a balance between power and clarity. “It’s really about how you modify the vowels at the top of the voice so that the words are still understandable but so that you are also making the best sound that you can make,” she says.
Writing in the New York Times this weekend, Robert Wright attempts to reconcile religion and science. The middle ground is the “built-in” moral sense of our universe, in that the universe builds and rewards organisms that cooperate with one another.
I bring good news! These two warring groups have more in common than they realize. And, no, it isn’t just that they’re both wrong. It’s that they’re wrong for the same reason. Oddly, an underestimation of natural selection’s creative power clouds the vision not just of the intensely religious but also of the militantly atheistic.
If both groups were to truly accept that power, the landscape might look different. Believers could scale back their conception of God’s role in creation, and atheists could accept that some notions of “higher purpose” are compatible with scientific materialism. And the two might learn to get along.
This is essentially the subject of the last chapter or two of Wright’s The Evolution of God, the only part of this excellent book that I didn’t quite buy into, even though I’ve been thinking about his conclusion quite a bit since finishing the book.
Taken together, 30-plus years of research add up to an increasingly persuasive conclusion: exposure to pesticides and other toxins increases the risk of Parkinson’s disease, and we are only now beginning to wrestle with the true scope of the damage.
Even our closest relatives, the great apes, move smoothly from their juvenile to adult life phases โ so why do humans spend an agonising decade skulking around in hoodies?
What do you think are the odds that you will die during the next year? Try to put a number to it โ 1 in 100? 1 in 10,000? Whatever it is, it will be twice as large 8 years from now. This startling fact was first noticed by the British actuary Benjamin Gompertz in 1825 and is now called the “Gompertz Law of human mortality.” Your probability of dying during a given year doubles every 8 years. For me, a 25-year-old American, the probability of dying during the next year is a fairly miniscule 0.03% โ about 1 in 3,000. When I’m 33 it will be about 1 in 1,500, when I’m 42 it will be about 1 in 750, and so on. By the time I reach age 100 (and I do plan on it) the probability of living to 101 will only be about 50%. This is seriously fast growth โ my mortality rate is increasing exponentially with age.
Read the whole thing…it’s not that long and is super interesting. (via mr)
Perhaps most striking are the regional differences. “Peach and melon allergy is particularly common in the Mediterranean - in Spain and Greece,” says Fern’andez Rivas. Reports from clinics suggest that Iceland is a hotspot for fish allergy and Switzerland has a higher rate of celeriac allergy than elsewhere.
These regional variations are likely to be due in part to differences in eating habits, causing people to be exposed to different allergens. But that alone cannot explain a pronounced north-south divide in the type of apple allergy people experience. In northern Europe, people react to the uncooked flesh of apples, whereas in the south it’s the skin that sets them off, whether it’s cooked or not. What could be the cause of this strange invisible dividing line that skims across south-west France, cuts through Italy close to Florence, and continues eastwards through the middle of the Black Sea?
Significantly, this line marks the southern limit of the birch tree, a plant whose pollen is one of the causes of hay fever in northern Europe.
Our brains have Oprah neurons, Aniston neurons, Eiffel Tower neurons, and Saddam neurons that fire when we see pictures or hear the names of these people and places.
Yet “Oprah neuron” might be a misnomer. The same neuron also fired, albeit much more weakly, to Whoopi Goldberg in one patient. Similarly, Luke Skywalker neurons also responded to Yoda, and those famous Jennifer Aniston neurons flashed to her former Friends co-star Lisa Kudrow. Such connections could explain how our brain relates two abstract concepts, Quian Quiroga says.
And then the Skywalker neurons said, “these aren’t the memories you’re looking for”. Ba doomp.
“The more test materials are promulgated widely, the more possibility there is to game it,” said Bruce L. Smith, a psychologist and president of the International Society of the Rorschach and Projective Methods, who has posted under the user name SPAdoc. He quickly added that he did not mean that a coached subject could fool the person giving the test into making the wrong diagnosis, but rather “render the results meaningless.”
To psychologists, to render the Rorschach test meaningless would be a particularly painful development because there has been so much research conducted - tens of thousands of papers, by Dr. Smith’s estimate - to try to link a patient’s responses to certain psychological conditions. Yes, new inkblots could be used, these advocates concede, but those blots would not have had the research - “the normative data,” in the language of researchers - that allows the answers to be put into a larger context.
I was not aware that the inkblot tests were even in use anymore…seems like an antiquated technique.
This research has important practical implications. It suggests that there are several simple steps we can all take to increase creativity, such as traveling to faraway places (or even just thinking about such places), thinking about the distant future, communicating with people who are dissimilar to us, and considering unlikely alternatives to reality. Perhaps the modern environment, with its increased access to people, sights, music, and food from faraway places, helps us become more creative not only by exposing us to a variety of styles and ideas, but also by allowing us to think more abstractly.
Programming such a computer is no easy task, however. The researchers coded a simplified version of the problem, using just three cities, by modifying the DNA of Escherichia coli bacteria. The cities were represented by a combination of genes causing the bacteria to glow red or green, and the possible routes between the cities were explored by the random shuffling of DNA. Bacteria producing the correct answer glowed both colours, turning them yellow.
But just as vacuum tube and silicon chip-based computers became capable of more abstract calculations, perhaps the bacteria computer will follow the same developmental trajectory.
On July 17, 1969, The New York Times issued a correction related to an editorial the paper published in 1920 that dismissed the idea of rocket travel in the vacuum of space. The editorial read, in part:
That Professor Goddard, with his ‘chair’ in Clark College and the countenancing of the Smithsonian Institution, does not know the relation of action to reaction, and of the need to have something better than a vacuum against which to react โ to say that would be absurd. Of course he only seems to lack the knowledge ladled out daily in high school.
The correction stated:
Further investigation and experimentation have confirmed the findings of Issac Newton in the 17th Century and it is now definitely established that a rocket can function in a vacuum as well as in an atmosphere. The Times regrets the error.
The Times regrets the error! Wish I’d written that next to a few muffed physics exam questions. Here’s a pretty good explanation of why rockets work in vacuums. (via @davidfg)
Law of Gravitation - An Example of Physical Law
The Relation of Mathematics and Physics
The Great Conservation Principles
Symmetry in Physical Law
The Distinction of Past and Future
Probability and Uncertainty - The Quantum Mechanical View of Nature
Seeking New Laws
The fact that both of these important brain networks become active together suggests that mind wandering is not useless mental static. Instead, Schooler proposes, mind wandering allows us to work through some important thinking. Our brains process information to reach goals, but some of those goals are immediate while others are distant. Somehow we have evolved a way to switch between handling the here and now and contemplating long-term objectives. It may be no coincidence that most of the thoughts that people have during mind wandering have to do with the future.
This jibes well with the picture of the absentmindedness typical of some brilliant people.
Hansen has now concluded, partly on the basis of his latest modeling efforts and partly on the basis of observations made by other scientists, that the threat of global warming is far greater than even he had suspected. Carbon dioxide isn’t just approaching dangerous levels; it is already there. Unless immediate action is taken-including the shutdown of all the world’s coal plants within the next two decades-the planet will be committed to climate change on a scale society won’t be able to cope with. “This particular problem has become an emergency,” Hansen said.
Hansen is so adamant about this belief that he has begun participating in protests around the globe, an unusual level of activism for such a respected and high-ranking government official. The last sentence of the piece reads:
He said he was thinking of attending another demonstration soon, in West Virginia coal country.
Newish episode of Radiolab about randomness: Stochasticity.
How big a role does randomness play in our lives? Do we live in a world of magic and meaning or … is it all just chance and happenstance? To tackle this question, we look at the role chance and randomness play in sports, lottery tickets, and even the cells in our own body. Along the way, we talk to a woman suddenly consumed by a frenzied gambling addiction, two friends whose meeting seems purely providential, and some very noisy bacteria.
Since atoms move between the [Bose-Einstein condensate] clouds faster than sound, any sound wave trying to escape will fall farther and farther behind, never able to escape the sonic event horizon. “It’s like trying to swim slowly against a fast current,” said Steinhauer. “The sound waves fall behind because the current is moving faster than the waves.”
Bose for speakers, Bose-Einstein for anti-speakers. Now, if we could just position one of these holes near the Fox News anchor desk, we’d be all set.
Geeking Out sounds interesting, but I can’t go. Perhaps you’d like to?
This month, we’ll be discussing the interaction between science and religion with speakers including: astrophysicist and Is God a Mathematician? author Mario Livio; psychologist Paul Bloom, the author of Descartes’ Baby; and The GOD Part of the Brain author Matthew Alper, one of the founders of the field of neurotheology. The work of local artists will be on display as well.
Geeking Out will be held Thursday, June 18th, at 7:30 pm (doors open at 7:00 pm) at the JLA Studios art gallery on 63 Pearl St in the DUMBO neighborhood of Brooklyn. Admission is FREE. Drinks will be available. Please spread the word and bring your friends.
Recently-predicted and much-sought, the material allows electrons on its surface to travel with no loss of energy at room temperatures and can be fabricated using existing semiconductor technologies. Such material could provide a leap in microchip speeds, and even become the bedrock of an entirely new kind of computing industry based on spintronics, the next evolution of electronics.
With these four recent advances โ Dr. Szostak’s protocells, self-replicating RNA, the natural synthesis of nucleotides, and an explanation for handedness โ those who study the origin of life have much to be pleased about, despite the distance yet to go. “At some point some of these threads will start joining together,” Dr. Sutherland said. “I think all of us are far more optimistic now than we were five or 10 years ago.”
When they are passing in front of their stars, their atmospheres are backlit in a way that can make spectroscopic analysis of the different chemicals in their atmospheres comparatively easy: the wavelengths of light absorbed by the various chemicals will show up, in a tiny way, in the spectrum of the starlight. And this is what makes it possible to imagine looking at them for signs of life.
What scientists would look for are planets with unstable atmospheres, which James Lovelock said was an indication of life.
After the extragalactic planet post this morning, Sam Arbesman sent me a link to systemic, a blog dedicated to the search for extrasolar planets written by Greg Laughlin, one of the scientists involved in the effort. Here are two relevant posts. In Forward, Laughlin says we’re very close to finding a nearby Earth-like planet:
Detailed Monte-Carlo simulations indicate that there’s a 98% probability that TESS will locate a potentially habitable transiting terrestrial planet orbiting a red dwarf lying closer than 50 parsecs. When this planet is found, JWST (which will launch near the end of TESS’s two year mission) can take its spectrum and obtain resolved measurements of molecular absorption in the atmosphere.
In Too cheap to meter, Laughlin presents a formula for the land value of such a discovery that depends on how far away the planet is, the age of the star it orbits, and the star’s visual magnitude.
Applying the formula to an exact Earth-analog orbiting Alpha Cen B, the value is boosted to 6.4 billion dollars, which seems to be the right order of magnitude. And applying the formula to Earth (using the Sun’s apparent visual magnitude) one arrives at a figure close to 5 quadrillion dollars, which is roughly the economic value of Earth (~100x the Earth’s current yearly GDP)…
The idea is to use gravitational microlensing, in which a distant source star is briefly magnified by the gravity of an object passing in front of it. This technique has already found several planets in our galaxy, out to distances of thousands of light years. Extending the method from thousands to millions of light years won’t be easy, says Philippe Jetzer of the University of Zurich in Switzerland, but it should be possible.
The Geek Atlas is a travel guide for those interested in science, math, and technology.
The history of science is all around us, if you know where to look. With this unique traveler’s guide, you’ll learn about 128 destinations around the world where discoveries in science, mathematics, or technology occurred or is happening now. Travel to Munich to see the world’s largest science museum, watch Foucault’s pendulum swinging in Paris, ponder a descendant of Newton’s apple tree at Trinity College, Cambridge, and more.
2. Introduce herd effect in highly personalized form. The hotel sign in the bathroom informed the guests that many prior guests chose to be environmentally friendly by recycling their towels. However, when the message mentioned that majority of the guests who stayed in this specific room chose to be more environmentally conscious and reused their towels, towel recycling jumped 33%, even though the message was largely the same.
40. Incentive programs need a good start. A car-wash place gave one group of customers a free car wash after 8 washes, and everybody got their first stamp after their visit. Group B got a free car wash after 10 car washes, with 3 stamps on the card. Both groups needed to make 7 more trips to get a free wash. 19% of the Group A returned, while 34% of the Group B did.
What does it feel like to almost freeze to death? Probably something like this.
At 85 degrees, those freezing to death, in a strange, anguished paroxysm, often rip off their clothes. This phenomenon, known as paradoxical undressing, is common enough that urban hypothermia victims are sometimes initially diagnosed as victims of sexual assault. Though researchers are uncertain of the cause, the most logical explanation is that shortly before loss of consciousness, the constricted blood vessels near the body’s surface suddenly dilate and produce a sensation of extreme heat against the skin.
But even if you are caught out in the cold long enough to paradoxically undress, not all hope is lost.
The lowest recorded core temperature in a surviving adult is 60.8 degrees. For a child it’s lower: In 1994, a two-year-old girl in Saskatchewan wandered out of her house into a minus-40 night. She was found near her doorstep the next morning, limbs frozen solid, her core temperature 57 degrees. She lived.
She was clinically dead, and her heart stopped beating for about two hours. But doctors slowly warmed her body and started her heart again. The girl, nicknamed Miracle, made a complete recovery.
RV shifts are how the vast majority of extrasolar worlds have been discovered, but only because these planets, called “hot Jupiters,” are extremely massive and in hellishly close orbits around their stars. Their stellar wobbles are measurable in meters per second; seeing the much smaller centimeters-per-second wobble of an Earth twin is orders of magnitude more difficult. For the Alpha Centauri system, the feat is akin to detecting a bacterium orbiting a meter from a sand grain-from a distance of 10 kilometers. But by devoting hundreds of nights of telescope time to collecting hundreds of thousands of individual observations of just these two stars, Fischer believes she can eventually distill the faint RV signal of any Earth-like planets. It’s simply a matter of statistics and brute force. The planets wouldn’t reveal themselves as images in a telescope, but as steadily strengthening probabilistic peaks.
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