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You get mid 60's out of it with reliable power sounds good to me. You running OPA Freeport NY?
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Originally Posted by 21eagle
(Post 4155065)
PigNaPoke any pics of your avanti? Sorry phragle as you know mine was an outboard, can't help ya with where you should be at.
Thanks, SJ. |
Originally Posted by phragle
(Post 4155140)
A little update.. did a little tweaking today and saw 61 and still climbing when I hit a chunk of driftwood or something. Scared the crap out of me seriously loud back and it bent the tips on 2 ears. Its got a little more in it, not much but a little.
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Smoking joe let me look, boat was factory outboard, had a Gil bracket.
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21eagle, also if I may ask, it says you had a P&D, how much difference in ride did you notice between the Avanti and the p&D??
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lol I think it's funny how 99% of people say "what's an avanti" when you tell them...
been a hell of a Lil boat... |
Originally Posted by PigNaPoke
(Post 4155715)
lol I think it's funny how 99% of people say "what's an avanti" when you tell them...
been a hell of a Lil boat... |
Originally Posted by Pilotpete
(Post 4154344)
The nerd-ist answer is this; The power required is (1/2*p*v)[SUP]3[/SUP]*A*Cd
Where p is the density of the fluid v is the relative velocity A is the cross-section Area Cd is the drag coefficient So if we put some arbitrary numbers in for effect, we will see the power differential at given speeds. So if the density of the fluid is 1, the speed is 40, the Area is 2 and the Cd is 0.5, you need 8000 units of thrust to maintain the speed. Changing only the speed, it looks like this; 40=8000 50=15625 60=27000 70=42875 80=64000 90=91125 So to double the speed from 40 to 80, you need 8 times the thrust. From 40 to 50 is almost double, requiring 7,625 over the 8000. But 50 to 60 requires 11,375 for the next 10 mph. If you plot the points of hp required at a given set of speeds (say, every 5 mph. And the hp scale should be available for a given engine at differing rpm) then you can project APPROXIMATE speed increases up the log scale. Where planing hulls differ from cars and planes is as you accelerate, you CAN reduce the area in contact with the water (to a point). For some reason, this discussion never impressed the girls... |
Originally Posted by onesickpantera
(Post 4157820)
Well your math impresses me! But, using your formula, you stated it would take 8 times the thrust to go from 40 to 80 mph. Wouldn't that mean you would need 8 times the engine power?
In answer to your question, all else being equal, yes. But that being said, everything else isn't equal. For cars and planes the basic rule says that when speed is doubled, drag is squared. But for a planing hull, the area of wetted surface is reduced as you go faster. Additionally, water is incompressible, so there are a few other issues that come to play. Now dereknkathy is correct that when you reduce the wetted area, you increase the aerodynamic drag, but that is nothing compared to the hydrodynamic drag. You'll see it when you change the trim on your boat at speed. Push the bow down and the boat slows. The more you lift out the water, the faster you go. And we're only talking about Vees here. Cats bring a whole set of additional calculations and considerations to the dance. Please also note that I just picked some random numbers for fluid density and Cd. However, the principle remains the same. So there are numerous variables that come into play here. In addition to the change of the wetted surface area, you have a difference in the prop efficiency as well. most props create thrust on a non-linear curve as well. Just as your hull has an efficiency "sweet spot", so will your prop. So "8x" thrust may take 8x hp, or more, or less. |
All kinds of variables in you really think about it. At higher speeds, less boat in the water = more boat weight on a smaller area of water, but then again, decks are pretty flat, the bottom has a big curve under the bow, at 70 is the air not giving the boat a bunch of lift by pushing on the curved underside? ever try and hold a peice of plywood on the roof of the car at 70?
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