A team of scientists has succeeded in putting an object large enough to be visible to the naked eye into a mixed quantum state of moving and not moving.
Wait, what? Like, WHAT? Ok, let’s start over:
Andrew Cleland at the University of California, Santa Barbara, and his team cooled a tiny metal paddle until it reached its quantum mechanical ‘ground state’ โ the lowest-energy state permitted by quantum mechanics. They then used the weird rules of quantum mechanics to simultaneously set the paddle moving while leaving it standing still.
The fuck? In my day, we were taught, with the help of non-graphing calculators and paper notebooks, that quantum mechanics was a lot of wand-wavey nonsense about wave/particle duality that you never had to worry about because it belonged to some magical tiny land that no one visits with their actual eyes. This…this is straight-up magic. [Cue Final Countdown]
Free-throw success is also improved by adding a little backspin, which pushes the ball downward if it hits the back of the rim. The North Carolina State engineers calculated the ideal rate of free-throw backspin at three cycles per second. That is, a shot that takes one second to reach the basket will make three full revolutions counterclockwise as seen from the stands on the player’s right side.
In a review in Prospect, Matt Ridley, who is no slouch as a science writer himself, calls Andrew Montford’s The Hockey Stick Illusion “one of the best science books in years”. Pretty high praise for what Ridley also calls “the biography of a graph”. Specifically, this graph:
You may have seen it in An Inconvenient Truth in this form. The graph shows the dramatic rise in temperature in the northern hemisphere over the past 100 years caused, presumably, by humans. But as Montford details in his book, the graph is incorrect.
[The author] had standardised the data by “short-centering” them โ essentially subtracting them from a 20th century average rather than an average of the whole period. This meant that the principal component analysis “mined” the data for anything with a 20th century uptick, and gave it vastly more weight than data indicating, say, a medieval warm spell.
After analyzing dozens of Hollywood films, a team of researchers has found evidence that the visual rhythm of movies at the shot level matches a pattern called the 1/f fluctuation, the same pattern that is found in dozens of natually occurring phenomena, including the length of the human attention span.
These results suggest that Hollywood film has become increasingly clustered in packets of shots of similar length. For example, action sequences are typically a cluster of relatively short shots, whereas dialogue sequences (with alternating shots and reverse-shots focused sequentially on the speakers) are likely to be a cluster of longer shots. In this manner and others, film editors and directors have incrementally increased their control over the visual momentum of their narratives, making the relations among shot lengths more coherent over a 70-year span.
Modern action movies are particularly adept at matching the audience’s attention span in this manner. The full paper is available here.
“We found that the people who were sensitive to fat, who could taste very low concentrations, actually consumed less fat than the people who were insensitive,” Keast told AFP. “We also found that they had lower BMIs (Body Mass Indexes).”
This is a good example of how the very ubiquity of vitamin C made it hard to identify. Though scurvy was always associated with a lack of greens, fresh meat contains adequate amounts of vitamin C, with particularly high concentrations in the organ meats that explorers considered a delicacy. Eat a bear liver every few weeks and scurvy will be the least of your problems.
But unless you already understand and believe in the vitamin model of nutrition, the notion of a trace substance that exists both in fresh limes and bear kidneys, but is absent from a cask of lime juice because you happened to prepare it in a copper vessel, begins to sound pretty contrived.
To start with, only simple tissues, such as skin, muscle and short stretches of blood vessels, will be made, says Keith Murphy, Organovo’s chief executive, and these will be for research purposes. Mr Murphy says, however, that the company expects that within five years, once clinical trials are complete, the printers will produce blood vessels for use as grafts in bypass surgery. With more research it should be possible to produce bigger, more complex body parts. Because the machines have the ability to make branched tubes, the technology could, for example, be used to create the networks of blood vessels needed to sustain larger printed organs, like kidneys, livers and hearts.
Over at Worldchanging, Alex Steffen calls Bill Gates’ talk about climate change the most important speech ever given at TED. Gates said that the number one priority for him and the Gates Foundation (the world’s largest philanthropic organization) is to combat human-driven climate change.
He reckons that because population is going to continue to grow for at least four decades, because billions of poor people want more equitable prosperity, and because (as he sees it) improvements in energy efficiency are limited, we have to focus on the last element of the equation, the carbon intensity of energy. Simply, we need climate-neutral energy. We need to use nothing but climate-neutral energy.
Using the Relativistic Heavy Ion Collider at the Brookhaven National Laboratory on Long Island, particle physicists have succeeded in creating quark-gluon plasma, the temperature of which is 4 trillion degrees Celsius (about 250,000 times hotter than the center of the Sun). The plasma is believed to be the state the universe was in a microsecond after its creation.
The departure from normal physics manifested itself in the apparent ability of the briefly freed quarks to tell right from left. That breaks one of the fundamental laws of nature, known as parity, which requires that the laws of physics remain unchanged if we view nature in a mirror.
This happened in bubbles smaller than the nucleus of an atom, which lasted only a billionth of a billionth of a billionth of a second. But in these bubbles were “hints of profound physics,” in the words of Steven Vigdor, associate director for nuclear and particle physics at Brookhaven. Very similar symmetry-breaking bubbles, at an earlier period in the universe, are believed to have been responsible for breaking the balance between matter and its opposite antimatter and leaving the universe with a preponderance of matter.
A recent study indicates that the wing shapes of North American birds are changing in response to deforestation.
He found that over half of the species he examined demonstrated changes over time with boreal birds developing more pointed wings and temperate birds developing rounder wings. These results support the hypothesis that habitat isolation is spurring evolutionary changes in birds.
Boreal forests have suffered severe deforestation over the past century, and so Desrochers had predicted that increased distances between habitat patches would select for more pointed wings in birds. Pointed wings are associated with more energy-efficient sustained flight.
Archaeologists and experts on early nautical history said the discovery appeared to show that these surprisingly ancient mariners had craft sturdier and more reliable than rafts. They also must have had the cognitive ability to conceive and carry out repeated water crossing over great distances in order to establish sustainable populations producing an abundance of stone artifacts.
Some scientists have developed a promising method for targeting and destroying individual cancer cells without harming the tissue around them. Tiny (like nano tiny) gold-plated iron-nickel discs are attached to cancer-seeking antibodies. The antibodies attach themselves to the cancer cells and when an alternating magnetic field is applied, the metal nano-discs vibrate and literally shake the cancer cells to death.
Since the antibodies are attracted only to brain cancer cells, the process leaves surrounding healthy cells unharmed. This makes them unlike traditional cancer treatment methods, such as chemotherapy and radiation, which negatively affect both cancer and normal healthy cells.
Were you to be close to a black hole, this program shows you what you might observe.
The optical appearance of the stellar sky for an observer in the vicinity of a black hole is dominated by bending of light, frequency shift, and magnification caused by gravitational lensing and aberration. Due to the finite apperture of an observer’s eye or a telescope, Fraunhofer diffraction has to be taken into account. Using todays high performance graphics hardware, we have developed a Qt application which enables the user to interactively explore the stellar sky in the vicinity of a Schwarzschild black hole. For that, we determine what an observer, who can either move quasistatically around the black hole or follow a timelike radial geodesic, would actually see.
For Linux and Windows only, although there are sample videos for non-downloaders or those on other machines.
The evidence comes from a study of how energy travels across the light-harvesting molecules involved in photosynthesis. The work has culminated this week in the extraordinary announcement that these molecules in a marine alga may exploit quantum processes at room temperature to transfer energy without loss. Physicists had previously ruled out quantum processes, arguing that they could not persist for long enough at such temperatures to achieve anything useful.
In 1905, Einstein came up with the concept of special relativity, published his paper on the photoelectric effect, finished his doctoral dissertation, devised the E=mc^2 concept, published a paper on Brownian motion, was approved for his doctorate, and turned 26.
If this doesn’t blow your socks off, then Hogan, who has just been appointed director of Fermilab’s Center for Particle Astrophysics, has an even bigger shock in store: “If the GEO600 result is what I suspect it is, then we are all living in a giant cosmic hologram.” […] Our everyday experience might itself be a holographic projection of physical processes that take place on a distant, 2D surface.
Recent evidence of horizontal gene transfer โ in which genes are exchanged from other organisms, not from ancestors โ has some scientists thinking that the dominant form of evolution for most of the Earth’s history was between non-related organisms and not among ancestors.
In the past few years, a host of genome studies have demonstrated that DNA flows readily between the chromosomes of microbes and the external world. Typically around 10 per cent of the genes in many bacterial genomes seem to have been acquired from other organisms in this way, though the proportion can be several times that. So an individual microbe may have access to the genes found in the entire microbial population around it, including those of other microbe species. “It’s natural to wonder if the very concept of an organism in isolation is still valid at this level,” says Goldenfeld.
Read on for their hypothesis about how horizontal evolution drove innovation โ development of a universal genetic code and genetic innovation-sharing protocols โ in life forms early on in the Earth’s history. Fascinating.
Several times when Subject 23 was asked to imagine playing tennis, Monti said, the region of the brain most closely associated with complex motor planning became highly active, and stayed active for 30 seconds after researchers prompted such imagery by saying “tennis.”
Similarly, when researchers asked the patient to imagine walking through the house where he grew up and then said the word “navigate,” Subject No. 23 responded with bursts of activity in the region of the brain involved in constructing and navigating a mental map.
The young, French-speaking man was the only subject who was then trained to answer simple yes or no questions โ whether his father’s name was Paul (yes) or Alexander (no), whether he had siblings and how many โ using the imagery technique he had already learned.
Checking the patient’s responses for accuracy and comparing them to the yes-no brain responses of a group of healthy volunteers, researchers discerned that Subject No. 23 was not only still “in there,” but capable of purposeful thought and communication.
I really can’t do a good job, any job, of explaining magnetic force in terms of something else you’re more familiar with, because I don’t understand it in terms of anything else you’re more familiar with.
This is why science is so maddening for some and so great for others.
Kids can remember hundreds of Pokemon characters but very few animals. The solution? The Phylomon Project is an open source initiative aiming to make Pokemon-type cards for actual animals.
We can imagine wild wolves scavenging on a rubbish tip on the edge of a village. Most of them, fearful of men throwing stones and spears, have a very long flight distance. They sprint for the safety of the forest as soon as a human appears in the distance. But a few individuals, by genetic chance, happen to have a slightly shorter flight distance than the average. Their readiness to take slight risks โ they are brave, shall we say, but not foolhardy โ gains them more food than their more risk-averse rivals. As the generations go by, natural selection favours a shorter and shorter flight distance, until just before it reaches the point where the wolves really are endangered by stonethrowing humans. The optimum flight distance has shifted because of the newly available food source.
Most of us have genes that make us as hardy as dandelions: able to take root and survive almost anywhere. A few of us, however, are more like the orchid: fragile and fickle, but capable of blooming spectacularly if given greenhouse care. So holds a provocative new theory of genetics, which asserts that the very genes that give us the most trouble as a species, causing behaviors that are self-destructive and antisocial, also underlie humankind’s phenomenal adaptability and evolutionary success. With a bad environment and poor parenting, orchid children can end up depressed, drug-addicted, or in jail โ but with the right environment and good parenting, they can grow up to be society’s most creative, successful, and happy people.
From start to finish, this is one of the most interesting things I’ve read in weeks.
For the same reason that we have Space Shuttle launch delays, we’ll be able to tell exactly what trajectories our enemies could take between planets: the launch window. At any given point in time, there are only so many routes from here to Mars that will leave our imperialist forces enough fuel and energy to put down the colonists’ revolt.
In 2004, the Hubble Space Telescope took an image called the Hubble Ultra Deep Field; basically astronomers pointed the Hubble toward an “empty” part of space and took a long-exposure shot in the visible spectrum. What they found were thousands of far away galaxies from early in the development of the universe. Now the Hubble has peered even deeper into the universe in near-infrared and captured this image:
Each one of those little specks is an entire galaxy, some only 600 million years old. Here’s a zoomed-in section:
How did whales get so big eating such tiny creatures? And why aren’t they bigger? Carl Zimmer explains.
According to the scientists, this pattern occurs when the whales lunge into a cloud of krill and drop open their jaws. Pleats under the lower jaw open up, engulfing huge amounts of water. The whale slows down because of the drag. It behaves, in other words, a lot like a parachute. […] It’s a lot of water, the scientists have found: in one lunge, a fin whale can momentarily double its weight.
The most striking feature of the H1N1 flu vaccine manufacturing process is the 1,200,000,000 chicken eggs required to make the 3 billion doses of vaccine that may be required worldwide. There are entire chicken farms in the US and around the world dedicated to producing eggs for the purpose of incubating influenza viruses for use in vaccines. No wonder it takes six months from start to finish. But we’ll get to that in a minute.
The most commonly used process for manufacturing an influenza vaccine was developed in the 1940s โ one of its co-inventors was Jonas Salk, who would go on to develop the polio vaccine โ and has remained basically unchanged since then. The process is coordinated by the World Health Organization and begins with the detection of a new virus (or rather one that differs significantly from those already going around); in this instance, the Pandemic H1N1/09 virus. Once the pandemic strain has been identified and isolated, it is mixed with a standard laboratory virus through a technique called genetic reassortment, the purpose of which is to create a hybrid virus (also called the “reference virus strain”) with the pandemic strain’s surface antigens and the lab strain’s core components (which allows the virus to grow really well in chicken eggs). Then the hybrid is tested to make sure that it grows well, is safe, and produces the proper antigen response. This takes about six to nine weeks.
[Quick definitional pause. Antigen: “An antigen is any substance that causes your immune system to produce antibodies against it. An antigen may be a foreign substance from the environment such as chemicals, bacteria, viruses, or pollen. An antigen may also be formed within the body, as with bacterial toxins or tissue cells.” So, when the H1N1 vaccine gets inside your body, the pandemic strain’s surface antigens will produce antibodies against it.]
At roughly the same time, a parallel effort to produce what are referred to as reference reagents is undertaken. The deliverable here is a standardized kit provided to vaccine manufacturers so that they can test how much virus they are making and how effective it is. This process serves to standardize vaccine doses across manufacturers and takes four months to complete. WHO notes that this part of the process is “often a bottleneck to the overall timeline for manufacturers to generate the vaccine”.
Once the reference virus strain is produced, it is sent to pharmaceutical companies (Novartis, Sanofi Pasteur, etc.) for large-scale production of the vaccine. The companies fine-tune the virus to increase yields and produce seed virus banks that will be used in the bulk production.
And this is where the 1.2 billion chicken eggs come in. A portion of the seed virus is injected into each 9- to 12-day old fertilized egg. The virus incubates in the egg white for two to three days and is then separated from the egg.
For the shot vaccine, the virus is sterilized so that it won’t make anyone sick. This is the magic part of the vaccine: it’s got the pandemic virus antigens that make your body produce the antibodies to fight the virus but the virus is inactive so it won’t make you ill. For the nasal spray vaccine, the virus is left alive and attenuated to survive only in the nose and not the warmer lungs; it’ll infect you enough to produce antibodies but not enough to make you sick. Either way, the surface antigens are separated out and purified to produce the active ingredient in the vaccine. Each batch of antigen takes about two weeks to produce. With enough laboratory space and chicken eggs, the companies can crank out an infinite amount of purified antigens, but those resources are limited in practice.
[Side note. You may have noticed that the H1N1 vaccine has been difficult to find in some places around the US. The vaccine manufacturers have said that the Pandemic H1N1/09 virus when combined with the standard laboratory virus does not grow as fast in the eggs as they anticipated. The batches of antigens from each egg have been smaller than expected, up to five or even ten times smaller in some cases. Hence the slow rollout of the vaccine.]
The purified antigen is then tested against the aforementioned reference reagents once they are ready. The antigen is diluted to the required concentration and placed into properly labelled vials or syringes. Further testing is performed to make sure the vaccine won’t make anyone ill, to confirm the correct concentration, and for general safety. At this point clinical testing in humans is required in western Europe but not in the United States. Finally, each company’s vaccine has to be approved by the appropriate regulatory body in each country โ that’s the FDA in the case of the US โ and then the vaccine is distributed to medical facilities around the country.
However, if the theorists are right, before it ever finds the Higgs, the LHC will see the first outline of something far bigger: the grand, overarching theory known as supersymmetry. SUSY, as it is endearingly called, is a daring theory that doubles the number of particles needed to explain the world. And it could be just what particle physicists need to set them on the path to fresh enlightenment.
If you haven’t been keeping up with particle physics for the past few years (as I haven’t), this will bring you up to speed a bit.
Nathan Myhrvold, ex-Microsoftie and founder of an invention company called Intellectual Ventures, is also really interested in food, so much so that he’s writing a monster cookbook (currently ~1500 pages) about the science of cooking.
In another discovery of culinary heat transfer physics, Dr. Myhrvold said the bulbous shape and black color of Weber grills were wrong. To achieve an even cooking temperature across the cooking grate, the inside of the grill should be vertical and shiny to reflect the heat. That can be fixed by adding an aluminum insert to the grill. “So we have directions for that,” Dr. Myhrvold said.
NASA announced that it has found pretty hard evidence of significant amounts of water on the Moon.
“We are ecstatic,” said Anthony Colaprete, LCROSS project scientist and principal investigator at NASA’s Ames Research Center in Moffett Field, Calif. “Multiple lines of evidence show water was present in both the high angle vapor plume and the ejecta curtain created by the LCROSS Centaur impact. The concentration and distribution of water and other substances requires further analysis, but it is safe to say Cabeus holds water.”
I don’t have to tell you about the implications here. Just think of how much you could sell authentic Moon bottled water for.
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