Domain: insidescience.org
Stories and comments across the archive that link to insidescience.org.
Stories · 16
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Controversy Over High-Tech Brooms Sweeps Through Sport of Curling
HughPickens.com writes: Billy Witz reports at the NYT that the friendly sport of curling suddenly has become roiled in controversy over — what else? — the brooms. The crux of the debate is fabric — specifically, something called directional fabric. The use of this material in broom pads is the latest escalation in an arms race among manufacturers, whereby the world's best curlers can guide the 44-pound stone around a sheet of ice as if it were controlled by a joystick. Many of the sport's top athletes, but not all of them, signed an agreement last month not to use the newest brooms. But with few regulations on the books and Olympic qualifying tournaments underway this month, the World Curling Federation has stepped in and issued new rules that set severe restrictions on the types of brooms that can be used. "There's definitely some anger over it," says Dean Gemmell. "In curling, we're generally known for being pretty friendly with most of your opponents. Even at the big events, you see the top players hanging out. But it's sort of taken that away this year, that's for sure."
It was prototype brooms made by BalancePlus that were the focus of complaints at the Toronto tournament, but Scott Taylor, president of BalancePlus, says they were never intended for sale, and were meant to demonstrate the problems that the reversed fabrics could cause. Players say the brooms allowed sweepers to "steer" the rock much more than they were comfortable with, and even slow them down. The brooms have been compared to high-tech drivers that allow amateur golfers to hit the ball as far as a pro, or the advanced full-body swimsuits that were banned from competition in 2010 for providing an unfair advantage. Of his company's high-tech broom, Taylor says: "This isn't good. It's like hitting a golf ball 500 yards." -
Inside the Spaceflight of 'The Martian'
benonemusic writes: Science writer Michael Greshko partnered with a team of scientists and engineers to explore the spacecraft and mission plans in The Martian (novel and movie), down to the rescue plan itself. Incorporating the help of Andy Weir, the novel's author, he comes up with a calendar of events for The Martian, explores the hazards of going back to save Mark Watney, and explains how a real world interplanetary spacecraft would pull off a rescue maneuver. -
Asteroid Day On June 30 Aims To Raise Awareness of Collision Risks
benonemusic writes: International organizers--including Queen's Brian May, an astrophysicist--have organized the world's first Asteroid Day on June 30, as a means to raise awareness for future collision risks and encourage actions to minimize the threats from such events. "If we can track the trajectories of asteroids and monitor their movement in our solar system, then we can know if they are on a path to impact Earth," former Apollo astronaut Rusty Schweickart told the organizers of Asteroid Day in a statement. "If we find them early enough, we can move them out of Earth's orbit, thus preventing any kind of major natural disaster." -
The Physics of Lexus's Hoverboard
benonemusic writes: Lexus' hoverboard may never become commercially available, but is it scientifically feasible? You'd need to place a superconducting material in a magnetic field powerful enough to support the board and the rider. Steve Gourlay of Lawrence Berkeley Lab's Superconductor Magnet Group provides insights, including the possibility that Lexus put some very strong rare-earth magnets underneath the sidewalk in the video. -
Sewage Bacteria Reveal Cities' Obesity Rates
benonemusic writes A new frontier in data mining: Researchers at the University of Wisconsin-Milwaukee and the Marine Biological Laboratory in Woods Hole, Massachusetts surveyed bacteria from human waste in the municipal sewage systems. Surprisingly they found different proportions of bacterial species in cities that correlated with obesity rates in those municipal areas. The researchers believe that these bacterial samples can yield city-level information on other diseases as well. Hopefully this isn't just a messy case of spurious correlation. -
Mathematician: Is Our Universe a Simulation?
Hugh Pickens DOT Com writes "Mathematician Edward Frenkel writes in the NYT that one fanciful possibility that explains why mathematics seems to permeate our universe is that we live in a computer simulation based on the laws of mathematics — not in what we commonly take to be the real world. According to this theory, some highly advanced computer programmer of the future has devised this simulation, and we are unknowingly part of it. Thus when we discover a mathematical truth, we are simply discovering aspects of the code that the programmer used. This may strike you as very unlikely writes Frenkel but physicists have been creating their own computer simulations of the forces of nature for years — on a tiny scale, the size of an atomic nucleus. They use a three-dimensional grid to model a little chunk of the universe; then they run the program to see what happens. 'Oxford philosopher Nick Bostrom has argued that we are more likely to be in such a simulation than not,' writes Frenkel. 'If such simulations are possible in theory, he reasons, then eventually humans will create them — presumably many of them. If this is so, in time there will be many more simulated worlds than nonsimulated ones. Statistically speaking, therefore, we are more likely to be living in a simulated world than the real one.' The question now becomes is there any way to empirically test this hypothesis and the answer surprisingly is yes. In a recent paper, 'Constraints on the Universe as a Numerical Simulation,' the physicists Silas R. Beane, Zohreh Davoudi and Martin J. Savage outline a possible method for detecting that our world is actually a computer simulation (PDF). Savage and his colleagues assume that any future simulators would use some of the same techniques current scientists use to run simulations, with the same constraints. The future simulators, Savage indicated, would map their universe on a mathematical lattice or grid, consisting of points and lines. But computer simulations generate slight but distinctive anomalies — certain kinds of asymmetries and they suggest that a closer look at cosmic rays may reveal similar asymmetries. If so, this would indicate that we might — just might — ourselves be in someone else's computer simulation." -
Algorithm Aims To Predict Fiction Bestsellers
benonemusic writes "Three computer scientists at Stony Brook University in New York believe they have found some rules through a computer program that might predict which fiction books will be successful. Their algorithm had as much as an 84 percent accuracy rate when applied to already published manuscripts in Project Gutenberg and other sources. Among their findings was that more successful books relied on verbs describing thought processes rather than actions and emotions. However, some disagree with the findings. Author Ron Hansen said style is not the key, but instead readers' interest in the topics in the book." There has been work done already on finding the formula for a hit song, and using analytics to craft a blockbuster movie. -
"Squishy Joints" May Have Helped Dinosaurs Grow To Giant Sizes
benonemusic writes "A new study in the journal PLOS ONE suggests that dinosaurs reached gigantic proportions relative to mammals because of differences in their cartilage, making their joints squishier and able to sustain greater amounts of force. Other factors contributed to dinosaurs' larger sizes, including their lighter, air-sac-filled skeletons, and some researchers point out that the sizes of some dinosaurs and mammals were approximately equal, so anatomical differences between cartilage in dinosaurs and mammals may not directly explain why some dinosaurs grew to larger sizes." -
D-Wave Quantum Computing Solution Raises More Questions
benonemusic writes "The commercially available D-Wave computer has demonstrated its ability to perform increasingly complex tasks. But is it a real quantum computer? A new round of research continues the debate over how much its calculations owe to exotic quantum-physics phenomena. 'One side argues there is too much noise in the D-Wave system, which prevents consistent entanglement. But in an adiabatic device, certain types of entanglement are not as vital as they are in the traditional model of a quantum computer. Some researchers are attempting to solve this conundrum by proving the presence or absence of entanglement. If they show entanglement is absent, that would be the end of the discussion. On the other hand, even if some of D-Wave's qubits are entangled, this doesn't mean the device is taking advantage of it. Another way to prove D-Wave's quantumness would be to confirm it is indeed performing quantum, and not classical, annealing. Lidar has published work to this effect, but that triggered opposition, and then a counter-point. The debate continues.'" -
If a Network Is Broken, Break It More
New submitter Aras Esor writes "When a network is broken — an electrical grid, the World Wide Web, your neurological system — one math model created by a PhD student at Northwestern University suggests that the best way to fix it may be to break it a little more. 'Take the web of interactions within a cell. If you knock out an important gene, you will significantly damage the cell's growth rate. However, it is possible to repair this damage not by replacing the lost gene, which is a very challenging task, but by removing additional genes. The key lies in finding the specific changes that would bring a network from the undesirable state A to the preferred state B. Cornelius's mathematical model (abstract) provides a general method to pinpoint those changes in any network, from the metabolism of a single cell to an entire food web.'" -
Pinholes and Plastic Wrap Make Solid Walls "Transparent" To Sound
First time accepted submitter benonemusic writes "Researchers have devised a means of making sound transmit easily through rigid surfaces, including walls. The process relies on creating small holes on a wall, and covering them on one side with a thin covering made from plastic wrap." -
Physicist Proposes New Way To Think About Intelligence
An anonymous reader writes "A single equation grounded in basic physics principles could describe intelligence and stimulate new insights in fields as diverse as finance and robotics, according to new research, reports Inside Science. Recent work in cosmology has suggested that universes that produce more entropy (or disorder) over their lifetimes tend to have more favorable properties for the existence of intelligent beings such as ourselves. A new study (pdf) in the journal Physical Review Letters led by Harvard and MIT physicist Alex Wissner-Gross suggests that this tentative connection between entropy production and intelligence may in fact go far deeper. In the new study, Dr. Wissner-Gross shows that remarkably sophisticated human-like "cognitive" behaviors such as upright walking, tool use, and even social cooperation (video) spontaneously result from a newly identified thermodynamic process that maximizes entropy production over periods of time much shorter than universe lifetimes, suggesting a potential cosmology-inspired path towards general artificial intelligence." -
Imaging the Molecular Orbitals of Pentacene
eparker05 writes "Researchers at University of Liverpool have used a scanning tunneling microscope to image the aromatic molecule pentacene (Abstract). Not unexpectedly, the resulting images showed an astonishingly close correlation to the theoretically predicted molecular orbitals. This incredible set of images reminds me of the group that imaged a single carbon atom in 2009." -
The Ultimate Limit of Moore's Law
BuzzSkyline writes "Physicists have found that there is an ultimate limit to the speed of calculations, regardless of any improvements in technology. According to the researchers who found the computation limit, the bound 'poses an absolute law of nature, just like the speed of light.' While many experts expect technological limits to kick in eventually, engineers always seem to find ways around such roadblocks. If the physicists are right, though, no technology could ever beat the ultimate limit they've calculated — which is about 10^16 times faster than today's fastest machines. At the current Moore's Law pace, computational speeds will hit the wall in 75 to 80 years. A paper describing the analysis, which relies on thermodynamics, quantum mechanics, and information theory, appeared in a recent issue of Physical Review Letters (abstract here)." -
The Best Approach For Avoiding Zombies
BuzzSkyline writes "Last month, math students published a model of a zombie infestation that explained how the disease might spread. A new physics paper offers help for the more immediate problem — how to avoid being eaten. The paper, which recently appeared in the journal Physical Review E, considers where best to hide when being pursued by zombie-like predatory 'random walkers.' Although the researchers weren't thinking of zombies when they wrote the paper, the abstract describes the research as focusing on 'the survival probability of immobile targets annihilated by a population of random walkers.' (Sounds like a zombie movie premise to me.) The bottom line is you're better off the more labyrinth-like your hiding place is. So take a lesson from Dawn of the Dead, and hunker down in the mall, not in a farmhouse (as in Night of the Living Dead)." -
Most Detailed Photos of an Atom Yet
BuzzSkyline writes "Ukrainian researchers have managed to take pictures of atoms that reveal structure of the electron clouds surrounding carbon nuclei in unprecedented detail. Although the images offer no surprises (they look much like the sketches of electron orbitals included in high school science texts), this is the first time that anyone has directly imaged atoms at this level, rather than inferring the structure of the orbitals from indirect measurements such as electron or X-ray interferometry."