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| IL-2 Sturmovik The famous combat flight simulator. |
| View Poll Results: do you know flugwerk company a her real one fockewulf a8? | |||
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2 | 33.33% |
| no |
  
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4 | 66.67% |
| Voters: 6. You may not vote on this poll | |||
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#161
11-15-2012, 06:16 PM
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The stall speed multiplies by the square root of G's pulled resulting in a greater difference between the planes -- from high speed start it will be the one that runs out of smash first. However the claim that a 190 should out-turn a Spit at low speed fails right there as you would have to defy physics or have a very poor Spit pilot in the Spit and a very good 190 pilot in the 190 to do so and then we are no longer comparing just the planes. Take away knowing who is flying which plane (and most other details) and we have a war story to misuse and come up with ignorance-based 'data'. The real cool stuff happens at higher speeds where turn fighters can't turn so hard without losing speed. The best energy fighting tactics use that whether online or IRL, check with Robert Shaw if you think different. At speed the 190A is booja but then 'at speed' in a 190A is 'high speed' in a Spit V. |
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#162
11-16-2012, 12:22 AM
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I'm not sure if he's saying the FW190 doesn't turn well enough or if it turns too well.
     
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#164
11-16-2012, 08:40 AM
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However: If starting airspeed is the same, and both aircraft start turning on the exact same trajectory - same turn rate, same turn radius, then the following applies: Both aircraft need equal amount of lift to stay on equal trajectory. As velocity is the same initially, and the only difference on planes is wing area, that means angle of attack must be different between the planes. That means that the aircraft with smaller wing must hold higher angle of attack to travel on the same path than the larger wing aircraft. This will, of course, quite fast start making a difference on where on the path the airplanes are. Because the small-winged aircraft needs to pull higher AoA to stay with the other version, it ends up having much more drag, and assuming both planes are having their engines balls to the wall that means the small wing aircraft will start losing energy in the turn much faster than the large winged aircraft. As the small winged aircraft starts losing speed, it also starts losing lift and thus turning ability, and it needs to start pulling even more angle of attack until critical angle of attack is reached. In this exercise, it is fairly likely that the aircraft with smaller wing will reach its critical angle of attack first if it tries to stay turning with the other aircraft. Additionally, if we are to assume that the large wing aircraft starts pulling the turn exactly at the critical angle of attack to begin with, then it is quite impossible for the small wing aircraft to even stay with it on the turn, because it cannot increase its own angle of attack higher than the critical AoA, and stalls immediately at the beginning of the turn - or ends up on a wider turn than the large-wing aircraft. This, personally, I can confirm with great satisfaction in IL-2. Quote:
Stall speed is an indicatory value for pilots and only holds at level flight. Aircraft can stall at any speed when thrown around with fists of ham. Stall speeds are given as the speed at which the aircraft can JUST hold its own weight with its lift, without losing or gaining altitude or airspeed, and holding angle of attack at or very near critical AoA. It gives some idea of the aircraft's performance since the stall speeds can be compared, however its relation to turning performance is not necessarily 1:1. Quote:
However we can probably both agree that as the FW-190 was introduced it had great successes against the contemporary Spitfires for various reasons, which could be listed but have already been mentioned in the thread. "Better turning ability" is decidedly not one of them, but the otheres - higher speed, excellent visibility, easy operation of engine to get the most out of it (Kommandogerät love) while Spit pilots had to dick around with engine settings... All of these could easily have made plausible situations where a FW-190 (or entire group of them) "outmaneuvered" Spitfires, using energy tactics, team tactics, and surprise of Spit pilots at finding entirely new aircraft that they've never seen before. Quote:
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#165
11-16-2012, 05:07 PM
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Thank you Herra!
I like stall speed as an aggregate measure of a number of factors when the plane is in flight at critical angle. I can predict that in a 4 G turn it will reach stall at 2x stall speed if piloted perfectly. And I think the neat part is that would be 2x clean stall or 2x dirty stall depending on configuration. Of course piloting can change that but never for the better. One thing though. In the turn where the smaller wing version of our plane is experiencing higher drag and slowing down at a greater rate, the very act of slowing down does tend to reduce turn radius so there's some ratio of lost lift widening the turn to lost speed tightening the turn, the path is not simply the rate so in my view... If both start -above- corner speed then for a time the ratio might benefit the higher wing loaded variant. And I think that's where high speed turn performance maybe delivers a bit more. As you say, it gets complicated.  IMO the place the higher wingload plane will get the biggest advantage is combining high speed and the vertical. That's where the FW's have been best for me. Last edited by MaxGunz; 11-16-2012 at 11:09 PM. Reason: add 1 more thot |
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#166
11-20-2012, 08:57 PM
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So nobody has come up with prop fighter wing bending data during turns so far... Why am I not surprised?
Nobody has come up either with one example of Spitfire out-turning the FW-190A in low speed sustained turns: There is quite a few accounts clearly demonstrating the opposite, with one pilot stating this was a general fact... Quite a discrete 60% advantage let me tell you! "Il-2 confirms with great satisfaction" But what about the satisfaction of a real wartime FW-190A-8 Western Front ace? The only time I ever heard a real WWII German ace directly opining on a simulation forum was through a relative on the Aces High "vehicles forum" around 2005, a Western Front FW-190A ace who unfortunately was not identified by the relative posting his replies to queries, because I suppose there were P-51s being shot down in his accounts, (a rotten deal for making my case at any rate)... A lot of about the way the posting relative presented his comments made it clear he was in contact with the real deal... He mentionned 3 separate types of aileron chords being available as an offered pilot "option" on the A-8, the widest chord being picked by the ace in question to help "catch" the wingdrop during low-speed turns... He described increasing further the "chord" of the ailerons by adding field-mounted "spacers" on the aileron hinges to increase their effectiveness at "catching" the wing drop, riding the turn on deflected ailerons (He describes precisely relaxing the pull on the stick just as the ailerons are deflected to catch the wing drop)... He described reversed a tailing P-51D in this manner using just two 360° turns flat on the ground (the P-51 straining very near its stall all the way)... He described the huge advantage of the broad wood prop, but also the risk of hitting the ground with it on landing (not clear if that was much greater than with the narrow metal prop)... He described using the FW-190A-8 exclusively as a low-speed turnfighter, reducing the throttle and dropping the flaps before a merge with faster P-51s... He did not care about their greater speed because he could turn to go head-to-head with them if they did not stay with him... Head-to-head was apparently a big advantage for the FW-190A, so the P-51 was presumably just as well off dropping the throttle and turning as well... The remarkable thing is, I have never heard of such details anywhere else, and yet nothing of the aileron details and other issues has ever been challenged as being false... I have asked years later of the site owner, surnamed Hitech, to tell me where to find this thread, titled "FW-190A veteran experience" (it went on for about 4 pages the last time I saw it): He actually claimed not to remember it... It is of course deleted from the archives, and he knows nothing about it... I guess everything the "real deal" had to say just exposed too harshly how current simulations, his and others, were a big pile of claptrap... But apparently, after all my threads, the Aces high FW-190A got quite a bit better...  Gaston |
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#167
11-20-2012, 09:18 PM
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Another 2c worth as we're on a roll.
The Spit wing is narrow in thickness and long in chord, designed for speed. Take this to low speeds If you rotate the spit the chord length now presents a larger area for drag (but producing momentary better lift) compared to the shorter chord of the FW, which has a thicker wing producing better lift and less(or equal) drag than the spit for the same rotation over longer time. Not forgetting the FW weight, but it's further from it's takeoff weight (Yes.. we're now in this region as I hinted before) than the spit, so it can probably be pulled harder. The thing in the spits advantage is it's power-to-weight ratio which could help it in the climbing turn, but is an inline engine more advantaged against a radial at low speeds. From what I can see and have read, the inline is a bugger to control at low speeds. I'm willing to take a bet that the Spit had very little advantage (if any) over the FW and such low speeds, which would account for Gastons 'research results' Your turn 
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Last edited by K_Freddie; 11-20-2012 at 09:30 PM. |
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#168
11-20-2012, 10:01 PM
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 Just for giggles: "I...stall-turned to port to attack the rear two Fw 190's. They broke and turned with me but I could easily out-turn them..." Spit IX vs. Fw 190. I actually looked for two minutes, found more than you in fifteen years. |
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#170
11-20-2012, 10:15 PM
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Your 'givens' about the Spitfire are wrong. Why not just say the Spitfire won because it bestowed 'gifts' upon the British pilots, or some other statement made from denial? |
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