h a l f b a k e r yBirth of a Notion.
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"The bacterial flagellum is driven by a rotary engine (Mot complex) made up of protein, located at the flagellum's anchor point on the inner cell membrane. " If we're going for rotary, then tumble-weed and the dung beetle spring to mind... |
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OK, so you want an ornithopter in which the energy storage comes from a flywheel, yes? |
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Basic problem: flywheels don't have a great energy density. The only ways to make them store more energy are either to have them spin much faster (and then there's a limit, because of centrifugal stresses on the flywheel) or to make them heavier (which means you need more power to lift them off the ground). |
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Also, an ornithopter needs intermittent power (mainly for the downstroke), which is not well suited to flywheel drive. |
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If you want an ornithopter, power it with a conventional engine or an electric motor. |
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More generally, you seem to have this incorrect idea that almost any form of thrashing about will be sufficient to allow you to rise, bird-like, from the ground. It won't. |
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The ornithopter is a spongy piece of foam in the shape of a
slice of cheese, with a gently faded edge. If you embedded a
fly wheel or a top, anything spinning, at the big end of the
cheese slice, at one of the corners, the spinning wheel
would impart its energy adaptively to the sponge so that
the overall effect would be a flap. |
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No, it wouldn't. Basic physics seem to have gone out the window here. |
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You would get a flap if your flywheel is unbalanced and matched to the resonant frequency of the wings - you would then power the flywheel conventionally. I would imagine that the aeroelastic effects would be exciting. |
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