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Human-powered Helicopter Fails to Lift Off

Posted by michael on from the we've-got-hiiiiiiiiiiigh-hopes dept.

Peter writes "The Human-powered helicopter didn't even get off the ground. A team of University of British Columbia engineering students tried to win the $20,000 US prize offered by the American Helicopter Society. Three metres off the ground and hover for a minute was the challenge. But before the rotors were able to produce enough buoyant force they hit each other. More details: Vancouver Sun."

4 of 410 comments (clear)

  1. Re:Does strike me as feasible by Kynde · · Score: 4, Informative

    The human body constantly generates an approximate 200 watts. In case anyone's wondering, that's about 0.26 horsepower, and that's assuming that you can apply the full 200 watts of your energy. It's fun to see them try, but the physics say that the energy just isn't there.

    That's not entirely accurate. I think the 200 watts is an approximation of the heat we emit in room temperatures. That's not the only source of power we have. We can also, for example, pedal.

    Considering that we can run uphill fairly fast, the physics indeed says the power to overcome gravity most certainly is there, atleast for short periods of time. It's another question entirely wether we have the power to lift ourselves and the helicopter machinery using that technique. It will mostly depend on the efficiency vs the weight of the machinery.

    --
    1 Earth is warming, 2 It's us, 3 it's royally bad, 4 we need to take action NOW
  2. Re:No pretesting? by Phurd+Phlegm · · Score: 5, Informative
    These were engineering students, and yet no one thought to do the basic physics calculations (like: what is the power required and can a human generate it) before building a prototype. I thought that was what engineering is all about.
    I know it's kind of expected that no one on Slashdot reads the references before pontificating, but this (click on "choosing the final Thunderbird design") seems to indicate they did do the calculations and they did expect a human could produce enough power.

    It appears they were in error, or that there were other things (e.g., stability) that interfered. That's no reason to expect they won't improve the design and get it working, though. I think it's a pretty cool challenge and certainly beats the usual student project of "design another <known thing>".

  3. Re:Does strike me as feasible by pclminion · · Score: 4, Informative
    So, does that mean that no energy is expended holding yourself at the top of a chinup?

    There is work being done on a microscopic scale in your muscles. You might need a background in muscle biology to completely understand this, but this is the modern theory of how actin and myosin (the two proteins which make your muscles work) actually cause muscle contraction.

    Basically, your muscle fibers are made up of billions of tiny ratchets which cog against another fiber, kind of like a rack-and-pinion steering system. When your muscle is applying force to an object, say, when doing a chinup, the ratchet teeth "slip" and the fibers slide past each other. To counteract this, the ratchets must flex again to pull the fiber back. All this ratcheting work eventually winds up as heat in your muscles.

    If your arms were made of steel, it would take no energy to hold a chinup. This is because steel arms have no moving parts. It is important to know that your muscles are indeed still "moving" while holding a chinup, but at a microscopic scale you are not aware of. That's why it requires an exertion of energy to maintain a flexed position.

  4. Re:No pretesting? by Dave_B93 · · Score: 5, Informative
    I was at the attempted liftoff.

    This was the first time that they had the whole thing assembled, and in some ways you could tell. I think some simple resistance based testing would've shown that chain structure was too fragile to propel the wings properly ( either that or the chain was somehow damaged in the first crash where the blades ran into each other.)

    It was also kind of obvious they had never practiced how they were going to start the thing. they had 4 volunteers, (one on the end of each rotor) running around helping the rotors get started. One of the guys on the lower blades was pulling too far down causing the other guy to let go. That is why the blades collided the first time, forget all this not enough lift on the top blade, it was human error.

    The second attempt (after repairing the damage caused by the first attempt). looked more promising, the blades actually seemed to be moving quite well, and in fact the upper blade had started producing enough lift that it looked like there was no danger of hitting the bottom one ( even with human error) , but then they ran into the problems with the chain. Imagine the sound that your bike makes when you're in the wrong gear going up a hill. The skipping noises etc... it sounded just like that.

    I left after the third attempt when the chain just came off. it didnt' look like they were going to get anywhere, and I'd already been there for about 2 hours.

    As for why they'd never practiced with the thing beforehand, I speculate that it is because they didn't know if the thing would survive. If somehow it had gotten off the ground, only to crash after 30 seconds, they would've beaten the record, but wouldn't be able to recreate it. This way they would atleast have witnesses...