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Luciano Infanti, 18 years old. Brazil.
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  1. I love this song.

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  2. Invisibility cloaking goes thermodynamic Researchers in France have shown how to isolate or “cloak” objects from sources of heat – a breakthrough that could help cool down electronic devices and thereby pave the way towards more powerful computers. They also show how the same technique could be used to concentrate heat, which might prove useful in advanced solar technologies. Invisibility cloaks are based on the mathematics of transformation optics – bending light such that it propagates round a space, rather than through it – and were proposed by John Pendry of Imperial College in London and Ulf Leonhardt of the University of St Andrews in 2006. Now, Sebastien Guenneau of the University of Aix-Marseille and colleagues at the French national research council (CNRS) wondered whether a similar thing could be done with heat. While intuitively, it might seem unlikely that the same mathematics could be applied to thermal diffusion, given that heat does not propagate as a wave but simply diffuses; the researchers found that the transformed equation worked.

    Invisibility cloaking goes thermodynamic

    Researchers in France have shown how to isolate or “cloak” objects from sources of heat – a breakthrough that could help cool down electronic devices and thereby pave the way towards more powerful computers. They also show how the same technique could be used to concentrate heat, which might prove useful in advanced solar technologies.

    Invisibility cloaks are based on the mathematics of transformation optics – bending light such that it propagates round a space, rather than through it – and were proposed by John Pendry of Imperial College in London and Ulf Leonhardt of the University of St Andrews in 2006. Now, Sebastien Guenneau of the University of Aix-Marseille and colleagues at the French national research council (CNRS) wondered whether a similar thing could be done with heat. While intuitively, it might seem unlikely that the same mathematics could be applied to thermal diffusion, given that heat does not propagate as a wave but simply diffuses; the researchers found that the transformed equation worked.

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  4. The Royal Society, 1952.

    The Royal Society, 1952.

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  5. How wings really work

    It’s one of the most tenacious myths in physics and it frustrates aerodynamicists the world over. Now, University of Cambridge’s Professor Holger Babinsky has created a 1-minute video that he hopes will finally lay to rest a commonly used yet misleading explanation of how lift.

    “A wing lifts when the air pressure above it is lowered. It’s often said that this happens because the airflow moving over the top, curved surface has a longer distance to travel and needs to go faster to have the same transit time as the air travelling along the lower, flat surface. But this is wrong,” he explained. “I don’t know when the explanation first surfaced but it’s been around for decades. You find it taught in textbooks, explained on television and even described in aircraft manuals for pilots. In the worst case, it can lead to a fundamental misunderstanding of some of the most important principles of aerodynamics.”

    To show that this common explanation is wrong, Babinsky filmed pulses of smoke flowing around an aerofoil (the shape of a wing in cross-section). When the video is paused, it’s clear that the transit times above and below the wing are not equal: the air moves faster over the top surface and has already gone past the end of the wing by the time the flow below the aerofoil reaches the end of the lower surface.

    Read more.

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  6. science by ~herryC

    science by ~herryC

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  7. The Einstein You Never Knew

    The Einstein You Never Knew

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