donderdag 30 september 2010

Flying Humvee a step closer to reality, still seems like a really bad idea

Flying Humvee a step closer to reality, still seems like a really bad idea: "

It looks like AAI Corp has, indeed, landed the contract for feasibility studies of the Transformer flying Humvee project, which as far as we can tell takes a lightly armored (if armored at all) four man vehicle and puts it in the air, practically begging to be hit by a rocket-propelled grenade. And if that doesn't sound sketchy enough, keep in mind that among the design considerations are gas tanks in the craft's wings which, as Spencer Ackerman at Wired points out, would make really obvious targets. The testing should last about a year, and cost DARPA a cool $3 million. If all goes well, AAI could have a partial prototype in 2013.
Flying Humvee a step closer to reality, still seems like a really bad idea originally appeared on Engadget on Thu, 30 Sep 2010 01:46:00 EDT. Please see our terms for use of feeds.
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zondag 26 september 2010

YTTM.tv - Pick a year, click refresh, and TRAVEL THROUGH TIME.

YTTM.tv - Pick a year, click refresh, and TRAVEL THROUGH TIME.
a you tube timemachine

The beauty of Molecular, Cell, and Microbiology

The beauty of Molecular, Cell, and Microbiology: "There has been a new discipline developing in molecular biology for some time now, Bioanimation! Projects have ranged in size from WEHI's colossal compilation to Harvard Biovision's magnum opus 'Inner Life of the Cell' to commercially produced masterpieces to smaller projects by university PIs and enthusiasts. much

Biomedical Animators Drew Berry and Etsuko Uno are supported by WEHI as they create their marvelous films:


  • An explanation of the DNA replication complex found in Escherichia coli




  • An explanation of how DNA is packed into chromosomes




  • A demonstration of bacterial transcription; showing the initiation, elongation and termination of a novel messenger RNA strand (Yellow)




  • A demonstration of eukaryotic translation showing a ribosome (Blue/Purple) binding to a messenger RNA strand (Yellow) and producing a protein, in this case globin (Red), using transfer RNA (Green)




  • A demonstration of how a single amino acid change (Green) can produce sickle cell anemia by causing hemoglobin (Red) to polymerize.




  • An explanation of the malarial life cycle in the human host (Part 2 in the mosquito host)




  • An explanation of how Clonal Selection was discovered and is used by the adaptive immune system to fight infection




  • An explanation of how Colony Stimulating Factor helps to activate the adaptive immune system




  • A demonstration of restriction enzyme EcoRI binding to plasmid DNA, diffusing along the double helix, and finding its palindromic binding sequence before cutting. A piece of DNA then binds to the plasmid and is ligated




  • A demonstration of a signaling pathway which leads to apoptosis




  • An explanation of healthy insulin production and the molecular cause of Type 1 diabetes

    Previously



    David Bolinsky and his colleagues at Harvard Biovisions have been working slowly, but producing amazing work:




  • A new sequel to 'The Inner Life of the Cell' looking closely at the mitochondria




  • A 2d animation detailing Leukocyte extravasation shown in 'The Inner Life of the Cell'

    Previously, Previouslier, Previousliest



    Hybrid Medical commercially produces its films:




  • Gorgeous promotional reel




  • An explanation of the use of folic acid in nucleotide metabolism (sponsored by Eli Lilly)




  • An explanation of the Pathophysiology of Crohn's disease (sponsored by HUMIRA)




  • An brief explanation of compliment mediated immunity(sponsored by Biothera)




  • An explanation of how intestinal micelles contribute to blood cholesterol (Sponsored by Merck & Schering-Plough Pharmaceuticals)




  • A demonstration of influenza infection




  • A demonstration of the stages of mitosis




  • A demonstration of T4 binding




  • A video demonstrating Streptococcus pneumoniae growth




  • The beating heart with blood flow



    Gaël McGill at his company digizyme has also been making beautiful films:




  • An explanation of Dengue virus entry




  • An explanation of early events in Reovirus entry




  • An explanation of HIV entry into the cytoplasm

    Previously



    An explanation of embryonic development and Embryonic differentiation sponsored by HHMI



    T4 infection process commissioned of Seyet by Michael Rossman



    Productions by Adrian Elcock's lab at the University of Iowa



    Finally here are two interpretive dance productions




  • Protein Synthesis: an epic on the cellular level by Robert Alan Weiss for the Department of Chemistry of Stanford University




  • Dancing DNA by the OSU Biology program

    Previously



    Enjoy!



  • "

    zaterdag 25 september 2010

    darwins choice: de speciale evolutietheorie

    darwin was wrong in zijn algemene evolutietheorie mbt. de menselijke soort want er worden evenveel meisjes als jongens geboren en er dus geen noodzaak is om alle meisjes achter je aan te krijgen, kortom er is geen werkelijke noodzakelijkheid voor sexuele selectie bij de mens als soort.
    Als er voor elke jongen een meisje is waarom zou er dan een streven naar beter of meer bestaan?
    Wat doet de omgeving er nog toe als er toch altijd menselijke voortplanting mogelijk is en de omgeving (lees: aarde) iedere mogelijke diversiteit en variatie inhoud en dus met neutrale onverschilligheid het verlies en de aanwinst met elkaar voor het menselijke soort in balans zijn? Als de mensheid uiteindelijk alleen nog zijn eigen omgeving is en natuurlijke diversiteit is vervangen door een kunstmatig gefabriceerde variatie of een moonbase alpha door technologisering, dan zijn de algemene evolutieregels van natuurlijke en sexuele selectie op de mens als soort een overbodig geworden paradigma. Voor de menselijke evolutie geldt dan ook een speciale evolutietheorie, dankzij onze handigheid.
    De menselijk natuur (waartoe ook jaloersheid, afgunst, lust en ijdelheid en andere zwakheden behoren) doen een komende dystopia al vermoedden, waarin de sexuele verhouding (lees: selectie) door de wet zal worden geregeld.
    Geen playboy meer met 100 vrouwen en dus 99 mannen zonder partner. Eerlijke verdeling van sexuele gunsten is dan de modernste eis. En waarom niet?
    Het kapitalisme moet nog maar eens achterhalen of genetische combinaties allemaal evenveel waard zijn ondanks de schaarste van sommige in hun voorkomen. Dat zal groepsselectie met genenmanipulatie en hersengedrag moeten uitwijzen.

    AwkwardFamilyPhotos.com

    AwkwardFamilyPhotos.com
    spreading the awkwardness

    alone


    met muziek en beelden gelardeerde gedicht van Tanya Davis. Als je alleen bent, en niet op je gemak daarmee, ga dan eerst maar eens naar plaatsen waar het normaal is om alleen te zijn, zoals een bibliotheek of een kerk - zo luidt het advies.

    zaterdag 11 september 2010

    the matrix dude

    The Power of Nightmares

    Zapruder Inc. | the_shadows_in_the_cave:
    “Dit is een serie documentaires over hoe en waarom die fantasie was gecreeerd en wie het dient. In het hart van het verhaal zijn twee groepen: de Amerikaanse neo-conservatieven, en de radicale Islamisten. Beide ideeen werden geboren uit het falen van de liberale droom om een betere wereld te scheppen. En beide hadden een bijna gelijke verklaring voor de oorzaak vanwat dit falen.
    Deze twee groepen hebben de wereld veranderd, maar niet op de manier die beiden hadden bedoeld. Samen hebben ze de nachtmeriesche visie van een geheim en ge-organiseerd kwaad dat de wereld bedreigd. Een fantasie waarvan de politici ontdekten dat het hun macht en autoriteit herstelde in een gedesillusioneerd tijdperk.
    En degenen met de grootste angsten werden het meest machtig.”

    Zie alle drie de delen van Adam Curtis: The power of Nightmares, documentaire met nederlandse subs op de site van Zapruder.

    donderdag 9 september 2010

    The Great Divergence: Did the tech boom create inequality? (4) - By Timothy Noah - Slate Magazine

    The�Great�Divergence:�Did the tech boom create inequality? (4) - By Timothy Noah - Slate Magazine: "The United States of Inequality"
    With a great slideshow about inequality in america from 1940/73/79 till now.

    Gray Matter: In Which I Fully Submerge My Hand in Liquid Nitrogen

    Gray Matter: In Which I Fully Submerge My Hand in Liquid Nitrogen: "

    A layer of bubbles protects the flesh from liquid nitrogen, though only for a split second. Need proof? Watch the video



    When I first saw this photograph of a man’s hand submerged in liquid nitrogen at somewhere below -320° F, my immediate thought was, “That guy must be crazy! One second in that stuff, and you’re shopping for new skin!” My shock was tempered only slightly by the fact that it was my hand, and we’d taken the picture just a minute earlier.

    I hadn’t realized that my hand was quite so deep into the liquid. Amazingly, I barely felt the cold at all. My skin didn’t get hurt for the same reason that water droplets dance on a hot skillet. An insulating layer of steam forms almost instantly between the water and the metal, keeping the droplets relatively cool as they float for several seconds without actually touching the hot surface. To liquid nitrogen, flesh is like that skillet—a surface hundreds of degrees above its boiling point. So the moment my hand touched the liquid, it created a protective layer of evaporated nitrogen gas, just as the skillet created a layer of steam. That gave me just enough time to put my hand in and pull it out again. Any longer than that, and frostbite would have set in.


    The phenomenon is called the Leidenfrost effect (after Johann Gottlob Leidenfrost, the doctor who first studied it in 1756). I’d known about it for years, but when it came time to test it in real life, I have to admit that I used my left hand, the one I’d miss less.


    I drew the line at another classic example of the effect. According to the books, it’s possible to stick a damp finger directly into molten lead without getting burned, if you do it fast enough. After some consideration, and remembering the times I’ve been burned by molten lead, I decided that it probably wouldn’t make a very good picture anyway.


    ACHTUNG! Do not try this. If liquid nitrogen soaks into your clothes, you will not be protected by the Leidenfrost effect, and you can get frostbite very quickly.


    ようこそ日本からの皆さん!他の動画はこちらから

    "

    woensdag 8 september 2010

    Animated simulation of asteroid hitting Earth

    Animated simulation of asteroid hitting Earth: "
    A dramatic computer-animated simulation, produced by NHK Japan and the National Film Board of Canada, depicts what would happen if an asteroid measuring 500 kilometers (300 mi) in diameter collided with Earth.



    + Video

    The massive asteroid -- larger than Japan's main island of Honshu -- is traveling at a speed of over 720,000 kilometers per hour (450,000 mph) when it crashes into the Pacific about 1,500 kilometers (1,000 mi) south of Japan. The impact causes the crust of the Earth to peel away like the skin of an orange, in what is called a 'crust tsunami.' Japan and a large portion of Asia are disintegrated, and chunks of burning rock as large as city blocks are hurled into the atmosphere before raining back down on the planet.

    The crater from the impact measures 4,000 kilometers (2,500 mi) across, and the rim stands 7,000 meters (23,000 ft), higher than many mountains on Earth today.

    Moments after the impact, a blanket of rock vapor as hot as the sun spreads quickly across the planet, decimating every living thing in its path. The entire planet is covered within one day. The oceans boil under the intense heat, evaporating at a rate of 5 centimeters (2 in) per second until they vanish.

    After a year, the rock vapor starts to dissipate and temperatures begin to drop. Within 1,000 years, the evaporated water vapor -- which does not escape into space due to the Earth's size and gravity -- cools, condenses, and falls back as torrential rain. The oceans start to fill, and life begins again.

    It is thought that asteroid impacts of this magnitude have happened six times in the past.

    This simulation was featured in 'Miracle Planet' (Episode 1 - The Violent Past), a five-part documentary about the 4.6-billion-year history of the Earth.






    "

    dinsdag 7 september 2010

    Kablam!

    Kablam!: "
    This image is stunning. And not just because, well, it’s all explodey and stuff:

    tomahawk_test_3panel


    [Click to explodenate.]

    The three panels show a 1986 test of a Tomahawk cruise missile. The missile traveled 640 km (400 mile) low over the terrain to detonate above the target, a decommissioned fighter plane. It’s pretty clear the test was a success.

    But what caught my eye immediately was the middle panel. Let me zoom it for you:

    tomahawk_testblast


    [Click to hugely embiggen!]

    [Note: added noon PDT Friday: There's a lot of discussion in the comments below on both the veracity of this test and my interpretation. I've been on travel the past couple of days, finishing up some Bad Universe stuff, so I haven't been able to look into this. So I admit I might be wrong, but won't know one way or another until I can sit and look into this. Stay Tuned.]

    Now look carefully there. When the missile exploded, the expanding debris cloud from the vaporized weapon was probably moving faster than the speed of sound. Even so, in this second picture you can see none of it had touched the plane yet when the shot was snapped.

    tomahawk_test_obliqueYet look at the plane: it’s on fire. How can that be?



    It’s because of something that moves much faster even than supersonic debris: light. When the warhead exploded, it sent out a huge pulse of heat in the form of infrared photons, light that travels about a million times faster than sound. As far as that flash of heat was concerned, the expanding debris was standing perfectly still! There was plenty of time for that heat to get to the plane and set it aflame before the explosion itself could reach that far.

    Note that third picture, taken from an oblique angle. You can match the features in the fireball to the ones in the second picture. The ground around the plane is lit up by the blast, and again no debris had yet reached the plane itself.

    It’s a little counterintuitive that the explosion works this way. We think of explosions as being made of expanding stuff, but it turns out that light has its role to fill as well. In fact, this is important in other ways: one idea to push Earth-crossing asteroids out of the way is to light off a nuke nearby. The force of the explosion itself isn’t all that great in space, because there’s no air to create a shock wave. The only momentum you give the rock directly is the expanding debris from the bomb itself, which isn’t all that much. But the blast of heat/light is immense, and can heat the asteroid past its vaporization point. The flash-vaporized rock expands, pushing on the asteroid like a rocket motor.

    Unfortunately, modeling of this shows it doesn’t work terribly well compared to other methods (like simply slamming the asteroid with a space probe like a linebacker hitting a quarterback). Still, you need to consider all the details when thinking about things like this. The devil hides in them, y’know!

    Oh, and one more thing. This Tomahawk test was done 24 years ago. How much has the technology improved since then?

    Yikes.




    "
    from bad astronomy