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Domain: imperial.ac.uk

Stories and comments across the archive that link to imperial.ac.uk.

Stories · 14

  1. Are Touchscreens Robbing a Generation of Surgeons of Their Dexterity? (bbc.com)

    Science · · posted by EditorDavid · from the losing-their-touch dept. · 68 comments
    schwit1 shared this article from the BBC: A professor of surgery says students have spent so much time in front of screens and so little time using their hands that they have lost the dexterity for stitching or sewing up patients. Roger Kneebone, professor of surgical education at Imperial College, London, says young people have so little experience of craft skills that they struggle with anything practical. "It is important and an increasingly urgent issue," says Prof Kneebone, who warns medical students might have high academic grades but cannot cut or sew. "It is a concern of mine and my scientific colleagues that whereas in the past you could make the assumption that students would leave school able to do certain practical things - cutting things out, making things - that is no longer the case," says Prof Kneebone.

    The professor, who teaches surgery to medical students, says young people need to have a more rounded education, including creative and artistic subjects, where they learn to use their hands. Prof Kneebone says he has seen a decline in the manual dexterity of students over the past decade - which he says is a problem for surgeons, who need craftsmanship as well as academic knowledge.... "A lot of things are reduced to swiping on a two-dimensional flat screen," he says, which he argues takes away the experience of handling materials and developing physical skills. Such skills might once have been gained at school or at home, whether in cutting textiles, measuring ingredients, repairing something that's broken, learning woodwork or holding an instrument. Students have become "less competent and less confident" in using their hands, he says. "We have students who have very high exam grades but lack tactile general knowledge," says the professor.
    Interestingly, much of the professor's research is on simulations, according to his web page at Imperial College London, where he leads "an unorthodox and creative research group" that uses professional actors with inanimate models to create realistic clinical encounters, as well as "low-cost, portable yet highly convincing environments such as the 'inflatable operating theatre'."

  2. More People On Earth Now Obese Than Underweight, Says Study (statnews.com)

    Science · Earth · · posted by BeauHD · from the fourth-meal dept. · 369 comments
    An anonymous reader writes: According to a new study published in the Lancet, obese people now outnumber the underweight population for perhaps the first time in global history. Majid Ezzati, an environmental health researcher at Imperial College London who led the study, analyzed data from 1975 to 2014 across 19.2 million adults from 186 countries. They found that over the 40-year-span, the proportion of obese men worldwide more than tripled, to roughly 11 percent, and the proportion of obese woman more than doubled, to about 15 percent. Researchers estimate 18 percent of men and 21 percent of women worldwide will be obese by 2025. What some may consider more surprising is that more than 25 percent of the world's severely obese men and almost 20 percent of the world's severely obese women are American. However, the rapid rise of obesity in developing nations is most concerning as it's more difficult for obese people to modify their diet and have access to medication.

  3. Foam-Spraying Quadcopter Becomes a Flying 3D Printer

    Hardware · Robot · · posted by Soulskill · from the because-we-definitely-need-one-of-those dept. · 34 comments
    Zothecula writes "The swiftlet may not look much different than other little birds, but it has one unique ability – it builds its nest out of its own saliva. Inspired by the swiftlet, scientists at Imperial College London's Aerial Robotics Lab have created a robotic quadcopter that can extrude polyurethane foam while in flight. By targeting where that foam goes, it can build up simple structures, essentially becoming a flying 3D printer."

  4. Volvo Developing Nano-Battery Tech Built Into Car Body Panels

    Hardware · Transportation · · posted by timothy · from the thinking-outside-the-boxy dept. · 178 comments
    cartechboy writes "Electric vehicle batteries have three problems — they're big, heavy, and expensive. But what if you could shift EV batteries away from being big blocks under the car and engineer them into the car itself? Research groups at Imperial College London working with Volvo have spent three years developing a way to do exactly that. The researchers are storing energy in nano structure batteries woven into carbon fiber--which can then be formed into car body panels. These panel-style batteries charge and store energy faster than normal EV batteries, and they are also lighter and more eco-friendly. The research team has built a Volvo S80 prototype featuring the panels where the battery panel material has been used for the trunk lid. With the materials used on the doors, roof and hood, estimated range for a mid-size electric car is around 80 miles."

  5. Study of MMOG Proves Human Interaction Theory

    Games · Games · · posted by kdawson · from the real-science-in-a-made-up-world dept. · 119 comments
    An anonymous reader writes "A new study analyzing interactions among 300,000+ players in an online game universe, called Pardus, has for the first time provided large-scale evidence to prove an 80-year-old psychological theory called Structural Balance Theory. The research, published in PNAS, shows that individuals tend to avoid stress-causing relationships when they develop a society, resulting in more stable social networks."

  6. 3D Images Reconstructed of 300M-Year-Old Spiders

    Science · Earth · · posted by Soulskill · from the things-that-i'm-glad-are-extinct dept. · 88 comments
    Hugh Pickens writes "Scientists at Imperial College London have created detailed 3D computer models of two fossilized specimens of ancient creatures called Cryptomartus hindi and Eophrynus prestvicii, closely related to modern-day spiders. The researchers created their images by using a CT scanning device, which enabled them to take 3,000 X-rays of each fossil then compile them into precise 3D models, using custom-designed software. Both spiders roamed the Earth during the Carboniferous period, 359-299 million years ago, when life was emerging from the oceans to live on land. C. hindi's front pair of legs were angled toward the front, suggesting they were used to grapple with prey, an 'ambush predator' like the modern-day crab spider, lying in wait for prey to come close. 'Our models almost bring these ancient creatures back to life and it's really exciting to be able to look at them in such detail,' says researcher Russel Garwood, adding that the technique could be used to return to fossils that have previously been analyzed by conventional means. 'Our study helps build a picture of what was happening during this period early in the history of life on land.'"

  7. Physics Experiments To Inspire Undergraduates?

    Ask · Education · · posted by kdawson · from the describe-the-universe-and-give-two-examples dept. · 249 comments
    PShardlow writes "I have recently been asked to propose two projects for a 1st year undergraduate teaching laboratory in the summer term this year. These are projects that a pair of students will spend 36 hours working on, and as such can be quite in-depth. A good project would include something they can build, something they can measure, and something they can calculate. Previous projects have included cloud chambers, a Jacobs ladder, a laser Doppler speed camera, laser sound detection, smoke rings, and physical random number generators. This is an opportunity to really inspire students into the joy that can be experimental physics — but it only works if we demonstrators propose interesting projects. So I ask the Slashdot community for suggestions of fascinating projects to do, things that are relevant to today's physics problems but could feasibly be completed by a pair of first-year undergraduates in 72 man hours."

  8. Genetic Building Blocks Found In Meteorite

    Science · Space · · posted by Soulskill · from the rock-garden-of-eden dept. · 165 comments
    FiReaNGeL writes to tell us scientists have confirmed that the components of genetic material could have originated in a place other than Earth. A recently published report explains how uracil and xanthine, two basic biological compounds, were found within a meteorite that landed in Australia. From Imperial College London: "They tested the meteorite material to determine whether the molecules came from the solar system or were a result of contamination when the meteorite landed on Earth. The analysis shows that the nucleobases contain a heavy form of carbon which could only have been formed in space. Materials formed on Earth consist of a lighter variety of carbon."

  9. Breakthrough In Plastic Lasers

    Tech · Technology · · posted by kdawson · from the attach-plastic-sharks-here dept. · 54 comments
    esocid writes "Conventional electrically-powered laser diodes used in everyday consumer goods like DVD players are currently based on inorganic semiconductor materials such as gallium arsenide, gallium nitride, and related alloys. Plastic laser diodes offer the promise of covering more of the light spectrum than their counterparts, from near ultraviolet to the near infrared. Yet despite over a decade of research worldwide, plastic laser diodes have not yet been demonstrated because there haven't been any plastics that could sustain a large enough current while also supporting the efficient light emission needed to produce a laser beam. Now researchers at Imperial College London, publishing their findings in Nature Materials in April, are studying a plastic related to PFO (polydioctylfluorene), a blue-light emitting material; by making subtle changes in the plastic's chemical structure they have produced a material that transports charges 200 times better than before, while actually increasing its ability to emit light efficiently."

  10. Similar DNA Molecules Able to Recognize Each Other

    Science · Science · · posted by Soulskill · from the dna-gps dept. · 84 comments
    Chroniton brings us a story about research into DNA which has shown that free-floating DNA strands are able to seek out similar strands without the assistance of other chemicals. From Imperial College London: "The researchers observed the behaviour of fluorescently tagged DNA molecules in a pure solution. They found that DNA molecules with identical patterns of chemical bases were approximately twice as likely to gather together than DNA molecules with different sequences. Understanding the precise mechanism of the primary recognition stage of genetic recombination may shed light on how to avoid or minimise recombination errors in evolution, natural selection and DNA repair. This is important because such errors are believed to cause a number of genetically determined diseases including cancers and some forms of Alzheimer's, as well as contributing to ageing."

  11. Blood Protein Used to Split Water

    Science · Biotech · · posted by Zonk · from the what-else-are-you-going-to-use-it-for dept. · 230 comments
    brian0918 writes "The Imperial College in London is reporting that genetically-engineered blood protein can be used to split water into oxygen and hydrogen. The abstract can be viewed for free from the Journal of the American Chemical Society." From the article: "Scientists have combined two molecules that occur naturally in blood to engineer a molecular complex that uses solar energy to split water into hydrogen and oxygen. This molecular complex can use energy from the sun to create hydrogen gas, providing an alternative to electrolysis, the method typically used to split water into its constituent parts. The breakthrough may pave the way for the development of novel ways of creating hydrogen gas for use as fuel in the future."

  12. Easier Way to Convert Proteins into Crystals

    Science · Biotech · · posted by ScuttleMonkey · from the crystal-clear-science dept. · 92 comments
    Roland Piquepaille writes "As you might know, proteins need to be transformed into 3-D crystals before their atomic structures and their properties can be analyzed. And production of high quality crystals from proteins has been a difficult task until now. But scientists in the U.K. have successfully used a porous medium, or 'nucleant,' a material that encourages protein molecules to crystallize. Their first step towards 'holy grail' of crystallography could help speed up the development of new medicines and treatments."

  13. Humans Are Superorganisms

    Science · Biotech · · posted by timothy · from the one-way-of-looking-at-things dept. · 81 comments
    colonist writes "You are not completely human. You are a superorganism made up of human cells, fungi, bacteria and viruses. That's the view of scientists from Imperial College London and Astra Zeneca, published in Nature Biotechnology. Microbes in the gut can weigh up to one kilogram, forming the second largest metabolic 'organ'. Human cells and genes are outnumbered by microbial cells and genes. 'Understanding the man-microbe interaction is likely to be crucial in realising personalised medicine and healthcare in the future,' says the lead researcher."

  14. Soft Processors in FPGAs?

    · posted by ryuzaki0 · from the taking-embedded-programming-to-the-next-level dept. · 26 comments
    cybergibbons asks: "We're students in the Department of Electrical and Electronic Engineering, Imperial College, and are carrying out some research for Altera into FPGAs, softcore processors, and hardware software co-design. Most embedded systems are a combination of hardware (for performance) and software (for versatility), and the design of these systems is getting more and more complex. Previously, the hardware and software was partitioned at the early stages of design, leading to sub-optimal solutions. New languages such as SystemC and Handel C aim to merge the hardware and software design with one common language combining the high level algorithm design and low level RTL design ? the ultimate goal being to allow conventional C++ programs to be synthesized directly into working systems, without any human intervention. However, what we seem to have found is a lot of marketing spiel and conceptual papers with no practical ideas. Is anyone using any of these new tools? Are any of the current co-design tools any good? Do you think a computer can partition designs effectively into hardware and software? What features would you like to see in future tools? Do you envision any amazing new applications for FPGAs using new co-design tools?"