Author Topic: 190A5 vs 190A8  (Read 64915 times)

Offline Gaston

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Re: 190A5 vs 190A8
« Reply #510 on: April 29, 2010, 01:27:48 AM »

   Here is the cut and paste quote, hitech (It is the "Society of Experimental Test Pilots", I remembered their name wrong):

    "SUSTAINED TURN PERFORMANCE at METO at 10,000 ft.
The F6F out-turned the other three by a conclusive margin (1g). The other
three were all about the same.
Corner speeds of all were very close to the maximum level flight speed,
implying very rapid energy loss when turning at the structural limit.
The F6F was in light airframe buffet at 6g at Vmax; the P-47 experienced
light buffet at 4.8g. The FG-1 and P-51 were buffet-free up to 6g."

   This test here was limited to 6Gs... I asked an actual prop aircraft designer, and he did not find it implausible that the "Corner Speed" would be that high ("Very close" can only be above 300 MPH, and is likely as high as 330+)...

   If you can pull high Gs (5 G +) below 300 MPH, it could simply mean the "Corner Speed" is a modest 6 G peak at 330-350...

   Note the same holds true of the other three US WWII types, and is likely true on many WWII fighters, including the Bf-109F/G/K if trimmed tail-heavy... I am almost sure it would not apply to those types with very poor high-speed elevator performance, like the A6M Zero, or it would "seem" to be even higher on the FW-190A, well above 400 MPH, because its turn/pull-out performance is so poor between 250 and 400 MPH... [Even then, measuring Gs on the FW-190A, at very high speeds, is a questionable issue because of the steep nose-up deceleration mushing (IE: The "tendency to black-out the pilot" mentionned in the Italian Front P-47 comparative)...:

   http://img105.imageshack.us/img105/3950/pag20pl.jpg 

   That is why it was NOT used for Boom and Zoom in Russian-observed Luftwaffe tactics, but the Bf-109G emphatically was... "The principal characteristic of the Me-109 in combat was speed", said French ace Clostermann, while comparing it to the FW-190A... ("Le Grand Cirque", comparative footnotes at the end) You have to wonder why it was not so for the actually faster FW-190A... What did he say about the FW-190A?: "They started later in the war to use flaps to turn a little tighter" Hmmmmm... but I disgress...]


    Quote, Karnak: "WWII aircraft did not produce enough thrust at full throttle to reach their best turn rate as a sustained turn.  That is why the Bf109's (not sure which version, but even from a D to a K the number won't go up too much) best sustained turn speed is 160mph and the best turn rate is 220mph.  Turning that hard produces too much drag for the Bf109 to reach 220mph.  This is true of all WWII aircraft for whatever their best turn and best sustained turn speeds are.  All decreasing the throttle is going to do is slow the aircraft down and force the pilot to slacken off on his turn in order to dedicate more of the wing's lift to keeping the aircraft at its altitude, thus increasing the radius of the turn as well."


   -160 MPH is barely 55-60 MPH above stall... Where is the source that 160 MPH is the Me-109G-6's best sustained turn speed at FULL power? Karhila mentions it stricktly in the context of downthrottling, something he emphasizes not every pilot did...

     Besides, it is obvious from the "Society of Experimental Test Pilots", since the Me-109G's elevator, with tail-heavy trim, could beat a WWII-vintage fabric-elevator P-51D Mustang's above 400 MPH, that the Me-109G's "Corner Speed" is more like a P-51D's than an A6M Zero's... Lowest speed to reach 6 Gs for a Me-109G was likely more in the (tested) Mustang neighborhood of 320-350 than the Zero's likely 200-250 MPH range... The 2.44 stall/Corner Speed ratio for these WWII fighters, at least if METO is used (and I do think METO power also affects the instantaneous turn), does not appear to correspond to actual tests... I would rather go with the test than with "all aircrafts are the same at a 2.44 ratio"...

   

      Quote, PJ_Godzilla: "Nothing is moving backwards. All you're doing with the pitch rotation is slightly decreasing the forward velocity of the upper part of the prop, thus changing its local alpha and slightly increasing its thrust there. I suppose what you say would be true if the ac were fixed but it's not. Even if it were, so long as the line of thrust is aligned to the pivot point, the resultant pitch moment from the pitch perturbation would still be zero."

        -First of all, the thrust alignment is NEVER perfectly in-line with the pivot point... In WWII fighters it is nearly always above...
     
       -YES the nose lifted IS moving backwards compared to the INITIAL straight-line situation, just like the tail IS moving forward... This is NOT the case sometimes if you don't have to pull back on the stick: The aircraft "tightens" the turn by itself for aerodynamic lift reasons... As soon as you have to keep pulling back on the stick, it means the aircraft wants to go straighter than what you want it to do... And THAT "straighter" direction, which the aircraft "wants", is the fixed reference point from which the nose moves back and the tail moves forward as you pull for what YOU want... And that fixed reference line continues fighting you as long as you need to deflect the elevator...

       Now that we have the basic concept that, compared to the direction the aircraft "wants", the nose DOES move backward on stick pull, as does the tail move forward, we can adress why the rotation of propulsion thrust pitch at the rear is not the same as the rotation of traction thrust pitch at the front: Allow me a few questions to see if you actually visualize the concept:

       What is inherently more stable, pulling a wheelbarrow or pushing it? Isn't greater stability in a aircraft a greater RESISTANCE to turning?

       If you exclude propeller torque effects: Is the process of being tracted at a lower speed, compared to what the current engine output would allow, not increasing that "wanting to go straighter" stability effect, as long as the speed remains slower than the maximum straight line speed for that power output?

       Finally, perhaps more cryptically: What happens when you cut wood with the tip of chainsaw? It does relate to why the propulsing tail moving forward is not the same as the tracting nose moving back...

        Gaston

       

       

   

   

Offline Karnak

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Re: 190A5 vs 190A8
« Reply #511 on: April 29, 2010, 01:28:45 AM »
Karnak thrust on constant speed props varys linearly with speed in normal speed ranges. I.E. Thrust = HP / Speed. So stating what the thrust of a plane is, dosn't really make since unless you include a speed.

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Offline FLS

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Re: 190A5 vs 190A8
« Reply #512 on: April 29, 2010, 04:43:21 AM »
Gaston when you're flying at 200-300 MPH and you pitch up nothing is moving backwards. It seems like you're picturing the relative movements of a stationary aircraft and not putting it into context. For example, anybody can take a bicycle wheel and spin it and see that the spokes move forward at the top and backwards at the bottom. This is simply observation. From that you can conclude that the spokes move forwards and backwards at the same time when the bike is moving forwards but that would be incorrect. Once the bike is moving the spokes only move forward or stop, there is no backwards movement.

Offline PJ_Godzilla

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Re: 190A5 vs 190A8
« Reply #513 on: April 29, 2010, 04:45:51 AM »
        -First of all, the thrust alignment is NEVER perfectly in-line with the pivot point... In WWII fighters it is nearly always above...
     
        What is inherently more stable, pulling a wheelbarrow or pushing it? Isn't greater stability in a aircraft a greater RESISTANCE to turning?
  

I wondered how long it would take before you used the word "stable". Yes, as you state and I will help, if we have a vertical displacement of the center of thrust from the "pivot" a "nose puller" will cause a nose-down moment. I've already stated as much. Likewise true, a "tail pusher" will have produce a moment that tends to increase that pitch rotation if the line of thrust is below the pivot, increase if above. Indeed, I already helped you to define the scale of the aero effect that tends to cause this moment - blade alpha. If you'd come up with numbers on prop inertia, I'd also help you quantify the inertial effect. Your scale arguments about the force help not at all and are a bit Patsy Cline, tending toward Comrade Grechko.

Further, none of that shanges the rest of what's been developed here. Also further, your motion argument is not correct in the inertial frame of reference.
As I say, R X F, physics 101, my man.
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Offline FLS

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Re: 190A5 vs 190A8
« Reply #514 on: April 29, 2010, 08:30:16 AM »
Grechko who saved Romanenko?

Offline PJ_Godzilla

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Re: 190A5 vs 190A8
« Reply #515 on: April 29, 2010, 09:12:27 AM »
Grechko who saved Romanenko?

Andrei Grechko...

Kapitsa also said the Soviet leadership had come close to using nuclear arms on China. He had been at the Politburo discussion. He said that Marshal Andrei Grechko, the Defense Minister, actively advocated a plan "once and for all to get rid of the Chinese threat." Grechko, a dim-witted martinet replaced by Dimitri Ustinov in 1976, called for unrestricted use of the multimegaton bomb known in the West as the "blockbuster." The bomb would release enormous amounts of radioactive fallout, not only killing millions of Chinese but threatening Soviet citizens in the Far East and people in other countries bordering China.


One, sort of low-brow source (Time - yes, I know, it's a McNews rag, but if you want depth, a simple search will reveal better sources)...
Read more: http://www.time.com/time/magazine/article/0,9171,960276-15,00.html#ixzz0mUtZYQOq

I'd think you could safely call him a little unbalanced or  perhaps just dim, not so much for his plan to use nuclear weapons, but for his poor choice of same. I mean, why destroy a populace when cleaner, hard-target warheads could, instead, knock out the chinese military and leave that populace and the national wealth undefended, therefore subject to annexation? That I could see. Nobody who's analyzed this, save for the unilateralists, whose "useful idiot" (so coined by the Soviets) views say that you shouldn't prepare for a nuke war since it's unwinnable and unsurviveable, honestly sees nuclear wars as "unwinnable", precisely because of the raw military capabilities of the weapons and the resultant potential for military victory without wholesale destruction. But Grechko, his plan was simply to eradicate Chinese. What purpose would that serve?

such a plan can only be seen as a bit insane. BTW, Soviet doctrine w/r the US was for the paralyzing first strike via big hits. The goal being disarmament/decapitation. It was the US that sold the MAD route to the idiot public - all while building highly accurate warheads (unnecessary if your target is a city).

Anyway, how does this bear on Gaston? I'm not trying to insult him OR call him dim but it's looking like he may need a little statics and dynamics training. His scale arg on the prop is simply crazy like Grechko. That's okay - I mean, he sticks to the arg and that's why I don't insult him - only his arg. I sympathize with his intuitive desire for there to be a good turnfighter in the LW but am about 99% sure the F-dub isn't it. I also think he's a decent guy.
Some say revenge is a dish best served cold. I say it's usually best served hot, chunky, and foaming. Eventually, you will all die in my vengeance vomit firestorm.

Offline FLS

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Re: 190A5 vs 190A8
« Reply #516 on: April 29, 2010, 10:31:13 AM »
  Ok, the same guy that was involved with Russia giving false information to Egypt in 1967 and look how that turned out. I thought you were making a lost in space reference but Grechko was the one on the tether.

That was also my point with the wheel example, that you can't look at something in isolation. With all the forces applied to the aircraft CG, looking at any one force, particularly without the math, is likely to be misleading.

Offline Guppy35

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Re: 190A5 vs 190A8
« Reply #517 on: April 29, 2010, 10:02:50 PM »
The term "filibuster" keeps coming to mind in this thread.
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Offline PJ_Godzilla

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Re: 190A5 vs 190A8
« Reply #518 on: April 30, 2010, 04:47:34 AM »
The term "filibuster" keeps coming to mind in this thread.

can't imagine why...
Some say revenge is a dish best served cold. I say it's usually best served hot, chunky, and foaming. Eventually, you will all die in my vengeance vomit firestorm.

Offline FLS

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Re: 190A5 vs 190A8
« Reply #519 on: April 30, 2010, 06:52:06 AM »
The term "filibuster" keeps coming to mind in this thread.

That reminds me of the story of the 3 monks and the lantern.

Offline Gaston

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Re: 190A5 vs 190A8
« Reply #520 on: April 30, 2010, 07:43:27 AM »
  -Sorry, I can't really provide specific quantity data on what a prop's load does...

   There is a point that needs to be clarified in my view: The idea from PJ_Godzilla that tilting the jet engine also by necessity tilts the thrust by the same amount... I think the net effect of the thrust center migration in the prop disc also happens on to somewhat the same extent on jet propulsion: The effect of thrust "migration" is simply that a fairly wide object turning has a noticeably slower side and a noticeably faster side. The thrust center "migrates" to the slower side for the same reason that it does on a prop disc: Since the aircraft is NOT accelerating (on the contrary, while turning it usually decelerates), the faster "outside" side is NOT accelerated: It is the "inside" side that is SLOWED DOWN, hence my saying the nose traction is "pulled in" when the stick is pulled... Tail propulsion is on the other hand "pushed in" when the stick is pulled...

   This "pull-in", I contend, regardless of how small the amount, requires defeating the entire amount of thrust that is relevant.  

   You might think the effect is smaller on jet thrust than a prop: There is no right-angle stress-riser lever action, but a jet exhaust thrust is not a perfect line as in a math formula: It spreads wide in a sort of "cone", and within that cone the thrust center will move around given the width of the cone...

   I have added to my previous graphic the jet cone and the slanted thrust center "C" (probably at an exaggerated angle), and this does allow to visualize better how large a difference tail propulsion makes to stability vs nose-traction, and how increasing traction power to the nose would in fact increase the burden on the pivot point "O"...:

    http://i275.photobucket.com/albums/jj284/gaston11_2008/english-electric-lightning_31-1.jpg?

       
   Note how the elevator action, "F", is counter-acted by the slanted thrust center "C": It is exactly like a toothed wheel being stopped by a cog... You can clearly see that the more powerful "C" is ("upthrottling"), the HARDER "F" will have to press down on "O" for the same turn action... (On prop aircrafts the thrust hits the elevators, so the greater "F" force usually will be available, but the lift of "O" is only helped by speed, and speed tends to go down, or stay constant, in turns...)

   That harder pressing down action on "O" will amount to a greater real-life wingloading: As if the aircraft was heavier, but in fact loaded up with its own thrust...

   Now look at the tail-propulsion example: The exaggerated slant "C" center of thrust is over the top, but even if it was less than on my image it would still be above the horizontal, and this means it would ASSIST the downward action of "F", the elevator...

   Again, I cannot quantify what is the amount of the difference between the traction and propulsion effect, but it doesn't seem to me that the amount is really small...


   This effect, as I explain it, WOULD explain the need for sustained downthrottling in sustained low-speed nose-tracted turns, in addition to explaining why this downthrottling has immediately positive results that are durable over several 360°s, rather than delayed effects that would wait for a lower speed, and then would only be short-lived as the speed falls below the "Corner Speed"...

   Furthermore, the fact that the 6 G "Corner Speed" was tested on actual WWII types in 1989, with professional test pilots using modern instruments, as being "very close to the maximum level (METO) speed", militates further against downthrottling towards the "Corner Speed" providing a durable turn rate advantage... (By "durable" meaning over several 360°s.)

   To my mind, this proves the Stall/Corner Speed ratio of 2.44 times is not applicable to all types, and that if prolonged downthrottling is observed in one of the 1989 tested types (plenty of very clear WWII anecdotes on the P-51D Mustang), then slowing down to Corner Speed is obviously not what is going on...

   The nose-traction reduction theory, to reduce the wing's load, is then the only explanation left...

    Gaston

    P.S. And yes Badboy, "Vertical Turn" is in fact a horizontal turn in WWII lingo: Ask any Western WWII veteran pilot (sigh).

    G.

  

    

Offline FLS

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Re: 190A5 vs 190A8
« Reply #521 on: April 30, 2010, 08:28:09 AM »
Gaston would you post a link to  a "right-angle stress-riser lever action" explanation as it relates to aerodynamics? I only know of right angle stress risers in materials properties.

Also a link to "vertical turn" as slang for a "horizontal turn" would be helpful. I've actually never seen that before.

Offline PJ_Godzilla

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Re: 190A5 vs 190A8
« Reply #522 on: April 30, 2010, 08:57:28 AM »
This has gone unhinged.

Gaston, you're NOT  pulling the prop back. The prop is still moving at a finite speed with respect to freestream. You simply increase the thrust on the slower side slightly - because of the prop alpha effect I showed and because tau=I*rotational velocity. Your contention that you must defeat the entire thrust to rotate the prop is wrong. Draw a Free-Body Diagram. At Steady State (v= constant) the thrust force on the "disk is exactly cancelled by the drag on the disk from the ac. Now move the thrust slightly off-center due to slightly higher blade loads on the slower side - that torque is what gets reacted at the hub on the ac.

You could simpy resolve it in a simplified 2-blade example at a given instant in time as the distance of the center of lift w/r hub times the diff in magnitude of force.

As for your Lightning diagram, it looks like you have the thrust vector rotating. If we resolve the slight reaction torque plus slight force imbalance caused by the turning effect to a single force vector at the point of thrust, yes, we can say there would be a slight nose-down moment caused by turning the nose puller and LIKEWISE slight nose down moment caused by the pusher, assuming the point of thrust is above the "pivot". The only way you get "nose up" out of that pusher is if you change the realtionship of the "pivot" and the point of thrust.

Why? Because the moment resulting from thrust is dependent on RXF. A forward thrust ABOVE the "pivot" will cause a nose-down torque - end of story.

Meanwhile, forgetting this incorrect scaling and sign, your argument still breaks down because all other nosepullers do the same exact thing.   

Finally, that c versus f argument is all wrong. You're totally neglecting the impact of the primary force-generating element of the ac. Also, the torque produced by the thrust is dependent both on the displacement off "pivot" of the thrust (vertial displacement means a pitch torque) and the magnitude of the thrust.
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Offline IrishOne

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Re: 190A5 vs 190A8
« Reply #523 on: April 30, 2010, 09:09:10 AM »
The term "filibuster" keeps coming to mind in this thread.
:lol   i think you might be on to something

-AoM-

Offline Ack-Ack

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Re: 190A5 vs 190A8
« Reply #524 on: April 30, 2010, 02:31:04 PM »

    P.S. And yes Badboy, "Vertical Turn" is in fact a horizontal turn in WWII lingo: Ask any Western WWII veteran pilot (sigh).

    G.   

You cannot be more wrong than that, a vertical turn is exactly what it is, a turn in the vertical plane and was never used by WW2 pilots as a reference to a horizontal turn.


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