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#132
12-09-2012, 04:19 PM
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#133
12-09-2012, 05:04 PM
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Crumpp What do you tell your students about leading edge slots? Do you tell them:- a) That they are devices that delay the stall or b) That they are anti spin devices Just wondering |
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#134
12-09-2012, 05:09 PM
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It's all abt having such device. Washout is good but produce a lot of drag. Accetable for a GA aircraft but not good for a fighter! It's one of the raison why the Spitty was so slow! Last edited by TomcatViP; 12-09-2012 at 05:11 PM. |
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#135
12-09-2012, 05:38 PM
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What that has to do with anything, I don't know. Maybe it is significant in your mind? What they do is energize the boundary layer by increasing the high energy turbulent portion so that stall is delayed significantly compared to plain airfoil. Twisting on the otherhand, simply moves the angle of incidence a few degrees. Go back a few pages and look over the definition of "spin resistant airplane". Maybe the light bulb will come on for you and maybe not?
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#136
12-09-2012, 05:52 PM
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And further, many of the design elements of the 109 were taken from many other aircraft, i;ncluding those from outside Germany. To suggest these elements originated only in Germany again is inaccurate. Aircraft design in the early '30's, as it is today, was a process of osmosis, with ideas and innovations rapidly circulating and moving from one location to another. |
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#137
12-09-2012, 06:01 PM
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And are you suggesting slats don't produce drag? Any device this size extended into the airstream below the wing is obviously going to produce a very large amount of drag. Even when the slats are not extended there was drag. And the 109 wing's tendency to early compressibility was partially a function of the slats being present. If you haven't seen it, then time to look at the following analysis, by an engineer who was on the Messerschmidt design staff: http://www.wwiiaircraftperformance.o...ner-Me_109.pdf |
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#138
12-09-2012, 06:54 PM
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Heres a really nice and simple way to illustrate this for you...you have pitched up in your 109....inboard section of the wing begins to stall and the lovely slats have deployed keeping you nice and safe....you keep pulling and your angle of attack is still increasing (even for the magic outboard section of the wing).....now you have pitched so much that you have stalled the outboard section of the wing because you have gone beyond the maximum angle of attack the slats allow.......please explain from this point what magic force is in place to prevent a spin. Now if you are sticking with the 109 elevator being unable to provide enough force to pitch beyond that point then you have: 1. eliminated the slats from actually being the main protection. 2. just highlighted exactly why the 109 was inferior in turn performance. I see that not even NACA managed to educate you on the real mechanics behind boundary layers.....go back a few pages and you will see how they completely contradict your theories. now what washout does is because of the physical twist in the wing putting the tips at lower incidence, the outboard sections of the wing remain unstalled when the inboards are stalled because the outboard sections are at a lower angle of attack.....which means the boundary layer is still adhereing to outboard section ofthe wing (because they are NOT stalled), airflow is still flowing over the ailerons making them effective...pretty much all the same conditions that are applying to the 109.....now if only there was some way of preventing pitching beyond critical angle of attack my Spit would be unspinnable.......no stall = no spin remember. Trust me...my lightbulb is on AND I'm home too. |
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#139
12-09-2012, 08:22 PM
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More over when you hve 1000hp in front of your airplane you don't care that much abt low speed drag (but to weight). Washout are draggy during cruise (range) and when you attend your max perf range. Ok enough of this especially after your argument abt going into the stall after your plane is shaking during a fight (but no mention here from you abt stick travel and af Cg huh). |
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#140
12-09-2012, 08:25 PM
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) did not have the production facilities that would be needed for such a big order by the RLM. Many parts were subcontracted (heinkel etc...) and had to be moved from one facility to another. Having the fuselage "crated" by its own undercarriage as soon as possible facilitate the production and made the wing stronger for a given weight (and Mr Messer was addicted to weight reduction as any good eng shld be!).
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