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First Human-Powered Ornithopter

Posted by samzenpus on from the don't-stop-pedaling dept.

spasm writes "A University of Toronto engineering graduate student has made and successfully flown a human-powered flapping-wing aircraft. From the article: 'Todd Reichert, a PhD candidate at the university's Institute of Aerospace Studies, piloted the wing-flapping aircraft, sustaining both altitude and airspeed for 19.3 seconds and covering a distance of 145 metres at an average speed of 25.6 kilometres per hour.'"

7 of 250 comments (clear)

  1. Awesome stuff, but it doesn't take off like a bird by vivin · · Score: 4, Informative

    The article doesn't make it clear that the aircraft still needs to be pulled for it to glide into the air (you can see this in the attached video). I was under the impression that it took off like a bird. The "flapping" of the wings is really cool to see though, once the craft gets airborne.

    Either way, really neat.

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  2. Re:Why Still Pursuing This? by GraZZ · · Score: 5, Informative

    Speaking as this guy's former roommate, one of the draws for him was that the aerodynamics and mechanics of flapping wing flight was not fully understood.

    The science here is understanding aerodynamics to the point that a human-scaled device can be built.

  3. Not the first, by any means by MobyDisk · · Score: 4, Informative

    This is not even close to the first human powered ornithopter. One of the most significant recent attempts is Yves Rousseau who crashed and became a paraplegic as a result of one of his flights.

  4. The Internet: magical fact verifying machine by spun · · Score: 4, Informative

    Do you remember when, back in the day, you could write or say anything about anything, no matter how uninformed you were, and if you communicated authoritatively enough, your audience would just eat it up with a spoon and not question you? Yeah, we have the Internet now.

    http://en.wikipedia.org/wiki/Human-powered_transport

    In the 1989 Race Across America, one team (Team Strawberry) [1] used an experimental device that consisted of a rear wheel hub, a sensor and a handlebar mounted processor. The device measured each cyclist's power output in watts. In lab experiments an average "in-shape" cyclist can produce about 3 watts/kg for more than an hour (e.g., around 200 watts for a 70 kg rider), with top amateurs producing 5 watts/kg and elite athletes achieving 6 watts/kg for similar lengths of time. Elite track sprint cyclists are able to attain an instantaneous maximum output of around 2,000 watts, or in excess of 25 watts/kg; elite road cyclists may produce 1,600 to 1,700 watts as an instantaneous maximum in their burst to the finish line at the end of a five-hour long road race.

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  5. Yes, the flapping is keeping it in the air by Just_Say_Duhhh · · Score: 4, Informative

    I looked at all the videos available for the flight. It is obvious that the flapping is maintaining flight - if he just started gliding at the release point, there is no way the flight would have been as long. This is probably the best view, and it also lets you hear what this thing sounds like when it flaps.

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  6. Re:Why Still Pursuing This? by ebuck · · Score: 5, Informative

    Dude, stop propagating an urban legend originated in 1934. Nobody said that bees can't fly, they said that an airplane wing traveling at the speed of a bee can't fly. Airplane wings needed more laminar air flow to generate lift according to Bernoulli's principle, and that means more forward speed to generate the minimal air flow than a bee displays in it's forward flight.

    Then the anti-science crowd then created a misinterpretation of this famous statement to read that "according to Science, bees can't fly" so it must be "God's work." Later it was softened to "According to science, bees can't fly so we don't know everything."

    It doesn't take a lot of insight to imagine how flapping a wing can sustain slower air speeds than a fixed wing aircraft could sustain. But the original findings have been so misused, that using the quote is paramount to spreading anti-Science propaganda.

  7. Re:Why Still Pursuing This? by IndustrialComplex · · Score: 4, Informative

    Bees would violate the laws of aerodynamics for fixed wing airplanes. Fortunately for them they operate more like a helicopter and get more sufficient lift by beating their wings. Do people still seriously believe this?

    Speaking as someone with experience with Helicopters. Designing those damned things is more an art that is reinforced by scientific knowledge. There are a lot of things about rotor aircraft that until recently have been way too complex to model. So in a manner of speaking, we did not know the aerodynamics of bees if you set your definition of know to be an exhaustive knowledge of the physics.

    A rotor spinning in place you could model, but add in any bit of wind current and motion and it became an aerodynamic mess.

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