Pilots for 9/11 Truth claim WTC airplanes would be uncontrollable at observed speeds

Ok then....Manual as in the pilot operating the controls rather than an autopilot...

Tony, you should be aware that there is no airspeed in the 767 flight envelope above which manual flight is prohibited. So with a VMO of 360 knots, a pilot can safely hand fly at those speeds. I have personally hand flown it above the limit after an inadvertent airspeed excursion above VMO climbing into a jetstream. The aircraft handled perfectly.

You should also be aware that test pilots must demonstrate the airframe is safe and that an average pilot can safely recover from the Design Dive speed (VD), which in the case of the 767 is 420 knots. This is done manually flying the aircraft.

You should also be aware that 767 recurrent simulator training includes what is call Unusual Attitude recoveries. UA recoveries are done (in my airline at least) with the pilot looking away from the controls whilst the other pilot has a bit of fun by placing the aircraft in some extreme attitude, including inverted. The pilot must then look up, recognise the attitude and apply a recovery manoeuvre. I have gone well beyond VMO/MMO in these simulations. How far past I cannot say because the airspeed indicator (from memory) doesn't go much beyond 400 knots. Whatever the structural considerations at those speeds, the aircraft handles fine.

I am not an engineer like MikeC so I cannot speak for how the flight control system is finessed. But it operates comfortably at extreme speeds.
 
The 767 elevator system has an artificial feel system with a direct dynamic pressure input (Q) into the artificial feel computer. That is how it is done; changing the airspeed changes the feel of the elevator controls.

The feel system increases the force required to make a control input as airspeed increases. This is specifically to avoid overstresses caused by large control inputs from hydraulically operated flight controls.

http://www.princeton.edu/~stengel/MAE331Lecture16.pdf

767 flight controls.JPG
 
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The 767 elevator system has an artificial feel system with a direct dynamic pressure input (Q) into the artificial feel computer. That is how it is done; changing the airspeed changes the feel of the elevator controls.

The feel system increases the force required to make a control input as airspeed increases. This is specifically to avoid overstresses caused by large control inputs from hydraulically operated flight controls.

http://www.princeton.edu/~stengel/MAE331Lecture16.pdf

767 flight controls.JPG
I understand there is a feel system which increases resistance to inputs with airspeed, but it does not allow for precision, which would be very difficult at the high dynamic pressures at 500 mph at sea level. In fact, it decreases the resolution of control to some degree. It is more meant for maintaining straight and level flight at high speed at altitude.

There is good reason the pilots in the simulators could not easily hit the buildings at 500 mph at sea level and could only do it when they were at landing speeds. Anyone saying it would have been easy to do does not understand the mechanics involved.
 
That's a bit of a trick question.....the 767 does not have manual flight controls - they are all powered - stop trying to trap the poor guy with his own ignorance!!;)
I understand there is a feel system which increases resistance to inputs with airspeed, but it does not allow for precision, which would be very difficult at the high dynamic pressures at 500 mph at sea level. In fact, it decreases the resolution of control to some degree. It is more meant for maintaining straight and level flight at high speed at altitude.

There is good reason the pilots in the simulators could not easily hit the buildings at 500 mph at sea level and could only do it when they were at landing speeds. Anyone saying it would have been easy to do does not understand the mechanics involved.
So explain the mechanics involved and what we don't understand. Feel free to go into the physics and the various engineering issues. Several of us here have engineering backgrounds and have worked with aircraft so the math and technical jargon won't be an issue.
 
I understand there is a feel system which increases resistance to inputs with airspeed, but it does not allow for precision, which would be very difficult at the high dynamic pressures at 500 mph at sea level. In fact, it decreases the resolution of control to some degree. It is more meant for maintaining straight and level flight at high speed at altitude.

There is good reason the pilots in the simulators could not easily hit the buildings at 500 mph at sea level and could only do it when they were at landing speeds. Anyone saying it would have been easy to do does not understand the mechanics involved.

How do you know it doesn't allow for precision? Have you flown a 767 at high speed? I have.

The feel system is used to avoid over stressing the aircraft at high IAS. It allows smooth control inputs, but the aircraft is perfectly controllable. You statement about being designed for straight and level at high altitude is a bit silly. Aircraft don't generally have high IAS at high altitude and airliners are generally not hand flown at cruise altitude. There the main control problem there is that if you have to hand fly it, the combination of high momentum caused by the high TAS of the aircraft and the lack of damping caused by the relatively low IAS. Damping from higher dynamic pressure is also a factor at lower altitude. It helps avoid the over controlling.

You haven't addressed my statements. If high dynamic pressure was dangerous at high IAS there would be limits on how fast you could hand fly. There aren't. Test pilots hand flew it to 420 knots. The requirement there was to prove an average pilot could recover from a jet upset and not break the airframe.

If you are going to quote the statements of Dan Govatos re: the simulator, maybe you should do a bit of a background search on him first. Maybe you can find why what he claimed is so compelling... or maybe why it isnt.

More to come on that.
 
So explain the mechanics involved and what we don't understand. Feel free to go into the physics and the various engineering issues. Several of us here have engineering backgrounds and have worked with aircraft so the math and technical jargon won't be an issue.

I don't know what you don't understand - I was replying to a post from someone else and not to anything you might have suggested.
 
I don't know what you don't understand - I was replying to a post from someone else and not to anything you might have suggested.
Sorry - I missed that you were in the top part of that. I thought I was responding to Szamboti comments about understanding the mechanics. Didn't mean to get you caught in there.
 
...There is good reason the pilots in the simulators could not easily hit the buildings at 500 mph at sea level and could only do it when they were at landing speeds. Anyone saying it would have been easy to do does not understand the mechanics involved.

When I last dabbled on this topic (which was quite some time ago), I believe there were also simulator trials where it was indeed possible to hit a building at the reported high speeds. So on the topic of simulators, the accuracy of which machine can hit a building is in question. Beyond the various classifications of simulators, I don't really know what kind of criteria and detail designers put into their machines, but I do have to ask: have you considered the possibility that the simulators used simply weren't meant to simulate flight beyond the limitations of say, an overspeed?

As far as the "mechanics involved," I think the burden of proof will be on you to explain why it can't be done. When it comes to precision, the planes are not unlike a speeding bullet hurling through the air. To me, it's pretty much point and shoot, and doesn't really require any superhuman skill to perform unless the so called "mechanics involved" would significantly alter the trajectory or otherwise render the aircraft uncontrollable. On that note, if the aircraft was uncontrollable, then the alternatives are as follows: 1) all three aircraft that stuck their marks on 9/11 were simply lucky; 2) the aircraft that stuck their marks didn't exist; 3) there was some other means of controlling the aircraft.

The second and third alternatives have been brought up a few times in these forums, though they carry the burden of complexity and also some pretty creative imaginings which limit the plausible outcome. The second one is almost in the realm of science fiction and John Lear himself came up with that one. This leaves the first alternative, or the outcome where in fact it wasn't all luck.
 
It appears that it was apparently a bit of luck (a lot?) and not as difficult as Tony believes it to be... the only of the three possibilities which make any sense in this world.
 
Now deceased Professional Pilot Philip Marshall (rated in 727,737,747,757 and 767) relates his attempts to duplicate Flight 77 in a simulator starting @ 16:28 on Coast 2 Coast. It took him 4 tries.

 
Now deceased Professional Pilot Philip Marshall (rated in 727,737,747,757 and 767) relates his attempts to duplicate Flight 77 in a simulator starting @ 16:28 on Coast 2 Coast. It took him 4 tries.



He does not say it was uncontrollable. He says he forgot to trim the nose down, so he missed the first time.
 
He does not say it was uncontrollable. He says he forgot to trim the nose down, so he missed the first time.
Phil Marshall probably didn't realize that trimming the nose down before attempting to hit a building was probably only taught in the suicide hijacker training course. I would bet that if he had been able to take that course he would have never forgotten to trim the nose down and would have surely hit the buildings the first time every time in the simulator.
 
Any pilot knows you have to trim forward when applying thrust in these aircraft. Even the hijacker.

Marshall argues his points rather strangely for a pilot. Trimming is self evident. He claims the workload for a single pilot is enormous and he wouldn't like to do it, forgetting that it is part of the endorsement sequence for a 2 pilot aircraft. Pilot incapacitation is probably the emergency that happens most often and the workload using automation and ATC assistance is very manageable.

The workload IS enormous if you hand fly and try to tick every safety box.... which Hanjour wasn't.

He also states that a 757 has 60000 lb thrust engines. The most powerful engine on the 75 is the Rolls Royce version, fitted to the UA aircraft and rated at 43500 lb. Thats a strange error for a supposed expert. I picked it up instantly.

Tony, you still haven't replied regarding my statements on limits on IAS for hand flying. The FAA certification requirements for high speed characteristics can be found here and are well worth a read.
 
Indeed, trimming down is obvious. And (based on my personal experience flying) particularly so to someone with recent training in small planes, where you trim all the time. Trimming would be an instinctual thing if the nose started to rise, and you were fighting to keep it down.
 
Phil Marshall probably didn't realize that trimming the nose down before attempting to hit a building was probably only taught in the suicide hijacker training course. I would bet that if he had been able to take that course he would have never forgotten to trim the nose down and would have surely hit the buildings the first time every time in the simulator.
I'm still waiting for you to explain what we don't understand about the mechanics of flight, aircraft or simulators. I also haven't heard you answer for the dynamic pressure problem. You kept repeating "dynamic pressure " like it was important and I gave you a simple equation to solve for one kind of dynamic pressure. If the answer is integral to your argument I would think you would want to throw those numbers back at us and explain their importance
 
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I'm still waiting for you to explain what we don't understand about the mechanics of flight, aircraft or simulators. I also haven't heard you answer for the dynamic pressure problem. You kept repeating "dynamic pressure " like it was important and I gave you a simple equation to solve for one kind of dynamic pressure. If the answer is integral to your argument I would think you would want to throw those numbers back at us and explain their importance
I didn't need you to give me an equation for dynamic air pressure. It is a function of air density and velocity squared.

The mechanics involved are that the forces on the control surfaces are 10 times greater at 500 mph at sea level than they are at landing speeds for a given stick input. The moments about the three aircraft axes are then 10 times greater for a given stick movement and aileron control lockout and stick feel are nowhere near enough to compensate for it. These things are meant for high speed cruising at altitude, to help maintain straight and level flight, not for high speed maneuvering at sea level. There is no airliner designed for high speed maneuvering at sea level.

There is a good physical reason experienced airline pilots had a very hard time hitting the buildings at 500 mph at sea level in simulators, whether you and some others here accept it or not. To say it would have been easy is ridiculous.
 
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I didn't need you to give me an equation for dynamic air pressure. It is a function of air density and velocity squared.

The mechanics involved are that the forces on the control surfaces are 10 times greater at 500 mph at sea level than they are at landing speeds for a given stick input. The moments about the three aircraft axes are then 10 times greater for a given stick movement and aileron control lockout and stick feel are nowhere near enough to compensate for it. These things are meant for high speed cruising at altitude, to help maintain straight and level flight, not for high speed maneuvering at sea level. There is no airliner designed for high speed maneuvering at sea level.

There is a good physical reason experienced airline pilots had a very hard time hitting the buildings at 500 mph at sea level in simulators, whether you and some others here accept it or not. To say it would have been easy is ridiculous.
So no numbers, just generalities.
 
I didn't need you to give me an equation for dynamic air pressure. It is a function of air density and velocity squared.

The mechanics involved are that the forces on the control surfaces are 10 times greater at 500 mph at sea level than they are at landing speeds for a given stick input. The moments about the three aircraft axes are then 10 times greater for a given stick movement and aileron control lockout and stick feel are nowhere near enough to compensate for it. These things are meant for high speed cruising at altitude, to help maintain straight and level flight, not for high speed maneuvering at sea level. There is no airliner designed for high speed maneuvering at sea level.

There is a good physical reason experienced airline pilots had a very hard time hitting the buildings at 500 mph at sea level in simulators, whether you and some others here accept it or not. To say it would have been easy is ridiculous.

Tony, endlessly quoting your opinion without backing it up doesn't prove anything.

You are plain wrong when you cite that elevator feel and aileron lockout system are for maintaining straight and level at high altitude. The autopilot flies the aircraft at high altitude due to the difficulties of accurately maintaining altitude caused by the momentum of high TAS and lack of aerodynamic damping. You don't need the same stick input to achieve the same rate of change in different flight speed conditions; therefore the feel system limits the ability for large stick inputs at high speed because they are not needed.

Did you read FAR part 25?

The 767 is designed to operate with NO restrictions at 360 knots at sea level. Its design dive speed is 420 knots KEAS. Recoveries from those speeds are hand flown; the automatics cannot handle them. Why do you ignore these facts?
 
The other thing you ignore is that right along with the increased moments from the higher speed is the increased effectiveness of controls at higher speeds. Therefore as I said, you don't need the same control movement at higher speeds to achieve the same result. That is why feel systems are there, to stop inadvertent large control movements at high speeds.
 
Tony, endlessly quoting your opinion without backing it up doesn't prove anything.

You are plain wrong when you cite that elevator feel and aileron lockout system are for maintaining straight and level at high altitude. The autopilot flies the aircraft at high altitude due to the difficulties of accurately maintaining altitude caused by the momentum of high TAS and lack of aerodynamic damping. You don't need the same stick input to achieve the same rate of change in different flight speed conditions; therefore the feel system limits the ability for large stick inputs at high speed because they are not needed.

Did you read FAR part 25?

The 767 is designed to operate with NO restrictions at 360 knots at sea level. Its design dive speed is 420 knots KEAS. Recoveries from those speeds are hand flown; the automatics cannot handle them. Why do you ignore these facts?
Recovering from a dive or flying at 360 knots isn't trying to hit a 207 foot wide building at high speed at sea level. High speed at sea level, with 10 times the pressure on the control surfaces, causes control to be nearly ridiculously difficult for fine maneuvers. Nobody is saying you can't fly at sea level at those speeds. The experienced pilots in the simulators were flying at high speed at sea level, but could not hit the buildings. They could only hit them when they slowed down to landing speeds. It is about resolution and stick feel and aileron control both make that much less, in addition to the forces on the control surfaces being much greater for a given movement.

A german engineer did a video about the south tower aircraft approach and compared any manual flying there to driving a car on ice at 300 mph and aiming for a parking spot. His screen name on the Internet is Achimspok. Look up his video.
 
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Recovering rom a dive or flying at 360 knots isn't trying to hit a 207 foot wide building at high speed at sea level. High speed at sea level, with 10 times the pressure on the control surfaces, causes control to be nearly ridiculously difficult for fine maneuvers. Nobody is saying you can't fly at sea level at those speeds. The experienced pilots in the simulators were flying at high speed at sea level, but could not hit the buildings. They could only hit them when they slowed down to landing speeds. It is about resolution and stick feel and aileron control both make that much less, in addition to the forces on the control surfaces being much greater for a given movement.

A german engineer did a video about the south tower aircraft approach and compared any manual flying there to driving a car on ice at 300 mph and aiming for a parking spot. His screen name on the Internet is Achimspok. Look up his video.

Maybe AE911 should finance a study to demonstrate this.
 
Seriously though. If all you have is a few random "experts" pontificating on the internet about how hard something is, then you've got nothing. It just seems like one pilot vs. another.

There was discussion a while ago of canvassing pilots in a pilots forum, to ask them how hard they thought the flying was, given the observed speeds and maneuvers. Maybe that should be pursued. A simple multiple choice survey would suffice. You just need a statistically valid sample, 100 would be good.
 
Seriously though. If all you have is a few random "experts" pontificating on the internet about how hard something is, then you've got nothing. It just seems like one pilot vs. another.

There was discussion a while ago of canvassing pilots in a pilots forum, to ask them how hard they thought the flying was, given the observed speeds and maneuvers. Maybe that should be pursued. A simple multiple choice survey would suffice. You just need a statistically valid sample, 100 would be good.
The survey format is complete . . . all it takes is someone to get permission to launch it on an aviation Forum . . . which I was unable to accomplish . . .
 
causes control to be nearly ridiculously difficult for fine maneuvers.
And yet the hijacker pilots managed it. Your protestations are in vain since you simply can't prove they didn't fly the planes.
This is futile - you can't prove a negative.


A german engineer did a video about the south tower aircraft approach and compared any manual flying there to driving a car on ice at 300 mph and aiming for a parking spot. His screen name on the Internet is Achimspok. Look up his video.

He's not a pilot either, neither are you. Not only that I'm familiar with 'achimspok'. He's a full-on 9/11 truther who believes that explosives went off in WTC 7 and in the basement of WTC 1 and 2; he buys into most of the major 9/11 myths like fake passports, planted debris and he even denies the extent of the fires in WTC 7. I remember him pretending that the smoke coming from the S side of WTC 7 was from adjacent buildings. The list of his half-crazy beliefs is long.
So in this arena his credibility for me is about zero.

But of course, that's the kind of judgement required to believe in the remote-control jet theory. :/

Here's a recreation of the flight path in realtime done by cjnewson88. The view of the towers is excellent during the long dive. I'm sure the hijackers weren't worried about any possible structural damage to the aircraft but the maneuver was not violent.
Most of the simulations I looked at done by 9/11 Truthers have them approaching the towers from the wrong altitude and speed anyway.

Maybe it was difficult, but it wasn't impossible.
 
The survey format is complete . . . all it takes is someone to get permission to launch it on an aviation Forum . . . which I was unable to accomplish . . .
Here it is . . . anyone who wants to take a whack at getting it on an aviation Forum . . . you have my permission . . . :D


Q) Could pilots with a commercial licencse have hit the the World Trade Center and the Pentagon with a 767 or 757 at the speeds observed on 9/11? (the pilots were assumed to have earned a commercial license within the previous year) (Tower #1 = 473 - 510 Knots Groundspeed, Tower#2 = 430 Knots Groundspeed, Pentagon = 460 Knots Groundspeed)

1) Yes
2) Yes, it would be fairly straightforward
3) Yes, but it would have needed a lot of concentration
4) Yes, but it would have been very difficult
5) Probably, but they were pretty lucky
6) Probably not, it would be very hard to do
7) No
8) No, the plane would be impossible to control at that speed
9) No, the plane would have fallen apart at that speed
10) No, the plane could never even reach that speed.
11) I don't know

Flight 77. . . Pentagon source
http://en.m.wikipedia.org/wiki/American_Airlines_Flight_77
NTSB sources
http://www.documentingreality.com/f...t-175-video-data-impact-speed-study-ua175.pdf
http://pilotsfor911truth.org/p4t/Radar_Data_Impact_Speed_Study--AA11,_UA175.pdf
Flight experience source
http://www.911myths.com/index.php/Flight_School_Dropouts
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Here are the results from a conspiracy Forum . . .

POLL: Could pilots with a commercial licencse have hit the the World Trade Center and the Pentagon with a 767 or 757 at the sp

7) No 27.1% (76)

6) Probably not, it would be very hard to do 13.6% (38)

8) No, the plane would be impossible to control at that speed 10.7% (30)

1) Yes 10.4% (29)

11) I don't know 10.4% (29)

2) Yes, it would be fairly straightforward 9.3% (26)

10) No, the plane could never even reach that speed. 5.7% (16)

9) No, the plane would have fallen apart at that speed 5.0% (14)

4) Yes, but it would have been very difficult 3.9% (11)

3) Yes, but it would have needed a lot of concentration 2.5% (7)

5) Probably, but they were pretty lucky 1.4%

(4)Blank (View Results)(72)


Non-Blank Votes: 280

http://www.godlikeproductions.com/forum1/message2141354/pg1

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Here is an idea. Locate 10 non biased flight students with comparable training to the hijackers. Set up the 9/11 scenario in a stimulator, preferably without being obvious what it is. Make it a test of skill of some sort and offer a money prize to any that could do it.
 
Here are the results from a conspiracy Forum . . .

POLL: Could pilots with a commercial licencse have hit the the World Trade Center and the Pentagon with a 767 or 757 at the sp

7) No 27.1% (76)

6) Probably not, it would be very hard to do 13.6% (38)

8) No, the plane would be impossible to control at that speed 10.7% (30)

1) Yes 10.4% (29)

11) I don't know 10.4% (29)

2) Yes, it would be fairly straightforward 9.3% (26)

10) No, the plane could never even reach that speed. 5.7% (16)

9) No, the plane would have fallen apart at that speed 5.0% (14)

4) Yes, but it would have been very difficult 3.9% (11)

3) Yes, but it would have needed a lot of concentration 2.5% (7)

5) Probably, but they were pretty lucky 1.4%

(4)Blank (View Results)(72)


Non-Blank Votes: 280

http://www.godlikeproductions.com/forum1/message2141354/pg1

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It's more fun to read the comments.
 
flight students with comparable training to the hijackers.

That would be me... kinda

I'll be in the official Air Canada Dash 8 Sim on Tuesday morning at YVR. I realize the Dash 8 Sim is not the same thing but would there be any questions anyone can think of that I could ask the techs or other personnel there? I know they definitely have a 767 sim there as well.
 
That would be me... kinda

I'll be in the official Air Canada Dash 8 Sim on Tuesday morning at YVR. I realize the Dash 8 Sim is not the same thing but would there be any questions anyone can think of that I could ask the techs or other personnel there? I know they definitely have a 767 sim there as well.

If you can link them to the cjnewson recreation they can understand the approach properly. I'd be interested in their comments for sure. I posted it above.
I don't think there's any consensus that it's not possible to do what the hijackers did on 9/11. Seeing that it's possible then Occam's Razor supports that scenario over more hypothetical ones.
 
Myths are usually created by embellishing true stories, sometimes they're just plain fantasy. In the case of the hijacker pilots, it's often said (as in the comment above) that Hanjour couldn't even fly a Cessna, yet he obtained his 'FAA commercial pilot certificate in April 1999, getting a "satisfactory" rating from the examiner'!

Also, in Feb 2001 he started 'Advanced Simulator Training' in Mesa, AZ. There are many details about his and the other's efforts on this chronology. Looks like they rented small planes to fly the airspace they needed to know for the attacks (Washington and Hudson Corridor) and spent months on simulators of jets.

I came across this assessment by a professional pilot, Giulio Bernacchia:

In my opinion the official version of the fact is absolutely plausible, does not require exceptional circumstances, bending of any law of physics or superhuman capabilities. Like other (real pilots) have said, the manoeuvres required of the hijackers were within their (very limited) capabilities, they were performed without any degree of finesse and resulted in damage to the targets only after desperate overmanoeuvring of the planes. The hijackers took advantage of anything that might make their job easier, and decided not to rely on their low piloting skills. It is misleading to make people believe that the hijackers HAD to possess superior pilot skills to do what they did.
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For reference, here is a page on Giulio Bernacchia. His resumé includes flying for the Italian Air Force, commercial airline, even NATO AWACS planes.

I'm almost certain your average 9/11 Truther has no idea of his observations, they'll never come across them on conspiracy websites.
 
I just found this article Simulator Proves “Impossible Speed” was “probable” for Flt 11 and Flt 175 (http://archive.is/CuiGR) showing that the 767 could easily fly at the reported speeds with control.
Done on a certified simulator. This debunks both PFT's and Tony's claims, unless they're going to call him a liar.


Conclusion: Is it probable that the 767-200 can make 560mph at sea level?
It is highly probable that AA11 and UA175 could easily make the airspeeds quoted in the official reports and as seen in the video footage. Here is a summation of the facts;
1. The aircraft were seen to make those airspeeds on September 11, 2001. This has never been questioned by any peer reviewed paper or team of experts, so it stands as fact.
2. The aircraft were well within their structural limit of .86 Mach by a margin of .12 Mach or approximately 14%; flying at maximum of reported speed of .74 Mach.
3. The simulator test carried out on an actual certified Full Flight Simulator (the best available), in a fully accredited pilot certification facility, showed that the 767 aircraft can reach an airspeed of .86 Mach in a flat trajectory at approximate sea level. It was also shown that .89 Mach could be achieved in a similar shallow dive as seen made by AA11 and UA175 on 9/11. These results show far greater speeds possible than the required official airspeed of 560mph or .74 Mach by some 16% at the minimum and 20% if the actual flight conditions were simulated in a shallow dive.
4. Considering the large margins demonstrated here, we can now conclude that the “Impossible Airspeed” stated by John Lear et al. is false.
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Recovering rom a dive or flying at 360 knots isn't trying to hit a 207 foot wide building at high speed at sea level. High speed at sea level, with 10 times the pressure on the control surfaces, causes control to be nearly ridiculously difficult for fine maneuvers. Nobody is saying you can't fly at sea level at those speeds. The experienced pilots in the simulators were flying at high speed at sea level, but could not hit the buildings. They could only hit them when they slowed down to landing speeds. It is about resolution and stick feel and aileron control both make that much less, in addition to the forces on the control surfaces being much greater for a given movement.

A german engineer did a video about the south tower aircraft approach and compared any manual flying there to driving a car on ice at 300 mph and aiming for a parking spot. His screen name on the Internet is Achimspok. Look up his video.

Tony you parrot the same lines without any proof. What experienced pilots? Give us some names. Show us the video? Give us their flying hours at the time?

Dan Govatos was the person making those claims. No evidence supplied. I dont wish to get into ad hominem attacks here but Dan Govatos makes a few interesting claims about himself that are easily proven to be massive lies. Get back to via PM if you want those.

Your "10 times the pressure on the control surfaces...." ad nauseum claim. The pressure on the control surfaces is countered by three 3000 psi hydraulic systems that drive the control surfaces. The hydraulics can easily counter those forces at high speed so the feel systems are added to require more pressure through the stick. The kicker is that at high speed you don't need large control deflections to control the aircraft.

I have flown the aircraft in question near VMO at low level and way past it in the simulator, and you quote a German engineer at me? When are you going to provide a any evidence for what you claim apart from " somebody else said"?

Once again read the requirements of the FAR25 certification tests. If you want proof that the aircraft is stable and requires no great skill or control force to fly at speeds way above VMO, it is actually written in the requirements and tested/proven by Boeing.
 
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