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#2
August 14th 03, 06:17 PM
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What do you mean by "best location?" Best in terms of ...?
I'm not a hydrodynamicist, but I'm pretty sure that the standard equation for dynamic pressure would work: density x (velocity^2/2). http://wright.nasa.gov/airplane/bern.html This assumes an incompressible fluid, and water certainly is. The depth should not have an effect, since the fin isn't going to be feet deep in the water. The pressure difference at the surface and at one foot is probably negligible. Just a swag to check the assumptions: Say we have a velocity of 15 m/sec, or 1500 cm/s. Assume water density is 1 g/cc (that's for pure H2O; "real" water is slightly higher by a small percentage). 1g/cm^3 x 1500^2cm^2/s^2/2 = 1.125x10^6 g/cm s^2. Converting g/cm s^2 to kg/m s^2 (divide by 1000, multiply by 100) we get 1.125 x10^5 Pascals of pressure. (A Pascal is 1 kg/m s^2, or 1 newton per square meter) http://whatis.techtarget.com/definit...541172,00.html To convert Pascals to to psi, divide by 145.03 (http://www.springfixlinkages.com/tec...on_factors.htm ) 775.7 pounds per square inch. Seems like a lot! But remember, this is water at 15 meters per second - 33 mph, faster than most ski boats. Hitting the water at that speed is like hitting a brick wall. At a taxi speed of one m/s, the dynamic pressure is 1g/cm^3 x 100^2cm^2/s^2/2 = 5,000 pascals, or 34.5 psi. Think about paddling a canoe at a good clip, then sticking the tip of the paddle in the water, flat-on, and trying to hold it. 35 psi sounds about right. Anyway, that's the way I figure it. Feel free to check the math and correct my asusmptions. Like I said, I'm not a hydrodynamic engineer. Corrie (Doug) wrote in message . com... I am trying to design a "fin" for my water rudders for my experimental floats. I need the equation for the amount of forces exerted by water going 0-50mph on a flat surface at right angles to the water flow. It would be dependent on the speed of the water, the depth of the fin and the angle of the fin to the water. I am hoping one of you tech types in homebuilt might know how to find this equation. The reason I want the equation, and not just the answer, is I want to be able to fool around with location of this fin to find the best spot. I have a degree in Electrical Eng, and had a course in statics, but I never took Fluid Dynamics. Hopefully the equation is not too complicated. | -----water flow--- |-----Need force F | side view of fin Doug 
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