Monday, January 4, 2010
Aerodynamics and Hydrodynamics of the Marine Life and Uses for AI, UAVs, Robotics, and the Future
The air is 750 times less density as the oceans, however, many the same principles apply there as well. We are very familiar with marine life and performance capabilities of sharks, dolphins, penguins, fish, alligators, etc. Mankind is fascinated by marine life and often tries to use these observations to create devices to serve him.A Great White Shark can swim 7 times faster than Olympic swimmers in Athens taking the gold this year, but it is not even close to being the fastest in the water. Powerful, yes, yes, but the need for speed limits its ability to capture some of your favorite dishes. Fortunately, humans are not one of them, like JAWS I, II and III would have us believe. The great white shark swimming around 25 mph. Squids can move through water at 20 miles per hour. The blue shark has been clocked at 43 km / h in short bursts but its average cruising speed in open water is between 17.7 and 24.5 miles per hour. Make The Short End can travel at 10 times the body length per second, which is quite fast and amounts to more than 46 mph at top speed. It can accelerate to 45 meters per second / per second, faster than you can drop a stone or a human being accelerated after deviating from an airplane in perfect condition in search of adrenaline to get a sense of purpose. A human can swim at 5.04 mph, but only for short distances and have to be a Mark Spitz and Michael Phelps to him for a long long.http: / / Ligon / www.ncsu.edu / olympics / Spitz / MarkS.htmlAs good as these super star athletes are no match for evolution, without modification. You may be pleased to know that a barracuda will catch and chop before a great white shark caught at sea, can swim at 27 km / h, one of the fastest, and even hungry fish in the water. Mammals of marine life is very adequate, Sea Lion 25 mph, Common Dolphin 24.7, Gentoo Penguin 17, Blue Whale 29.76, Bottle Nose Dolphin 17 mph. Many of the fish eaten by marine life of prey are also well suited, for example, Pacific salmon can swim at 14 mph. Then there are the flying fish that leap out of the water and become carriers, demonstrating that there is a similarity between the two kingdoms. The flying fish flies at 35 mph and has been known to fly right into a boat for easy prey. Albacore jumping jumps at 40 mph great sushi no doubt, yellowfin tuna to 46.35, swordfish and sailfish 60 mph to 68 mph. Here is a question of Barbados, flying fish has been clocked at 55 mph? Being, perhaps, but not if Hurricane Ivan has anything to say about it, because if the fish jumps out of the water that threatens to do something than 135 mph to within meters of the surface and leave in the air might be a bit " too? Now that would certainly be a new record.Does This means that you also may want to look at Fish and Sea Life Development in the aerodynamic design of aircraft, unmanned aerial vehicles, aircraft and Olympic swimming team? Yes, this is one of the points in this dialogue. This means that we must look at aviation designs for submarines, autonomous underwater vehicles, ship hulls and underwater submersibles? It should also be designing underwater bases for aircraft, spacecraft and ships dual-use? Flying AUVs, which become UAVs? Flight Planning torpedoes, mechanical fish and AVM, which seem to be flying fish photo too? Yes it is. If you made a mechanical fish what would it be? Hunting water mines, data centers, network-centric communication additional units? Http: / / worldthinktank.net / wttbbs / index.php? Showtopic = 218If nature can do these things, so that we can and we have been constantly re-designing and improving the ways of nature. If an 'eagle is 3-4 times higher in the light and you can see, react and adapt while in flight and fast, has less of a brain to coordinate all the data, but has also developed three times the response time or reflection, we must look at how this is done? For example, using Eagle makes a kind of visual frame bursting, for example, you know what type of fish they like to eat that tastes good and is the right weight and size, and when you see this brain fills in the details and only eyes focus on small changes in movement and detail, to know where to pick and the best way to extract the water? We know that our brain uses about 45% of brain capacity in visual cognition. What does the eagle with many flights and all data from your memory, you can store everything, he has a random access memory as the data dump when Windows crashes the computer? Just save the
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