737NG tendancy to roll back to wings level
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737NG tendancy to roll back to wings level
Hi Guys,
how stable does the 737NG hold a given bank angle?
Do i need to give inputs to hold the bank, or is the bank angle stable?
I wonder if there could be a tendancy to increase the bank (unstable).
It would be interesting if there are differences in bank stability between clean config and flap config.
Any infos would be much appreciated
how stable does the 737NG hold a given bank angle?
Do i need to give inputs to hold the bank, or is the bank angle stable?
I wonder if there could be a tendancy to increase the bank (unstable).
It would be interesting if there are differences in bank stability between clean config and flap config.
Any infos would be much appreciated
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Lesson 1 Effects of Controls: Select, Hold, Adjust.
Why NG as opposed to any other non-FBW swept wing, low wing-mounted with dihedral airframe?
I don't think Mr Boeing would release to the great unwashed a 'frame which increased bank after the initial application and neutralising of roll control inputs?
Clean, in theory the roll control has better authority than with flap, due to the spanwise distribution of lift with flap/slats deployed, but the roll control deflections are varied according to speed with inboard spoilers assisting roll at higher speeds.
All this extracted from my ancient brain after a few hours on the type, but doubtless someone with a better brain and/or access to the manuals will give more detail?
Still wondering why the question.......................
Why NG as opposed to any other non-FBW swept wing, low wing-mounted with dihedral airframe?
I don't think Mr Boeing would release to the great unwashed a 'frame which increased bank after the initial application and neutralising of roll control inputs?
Clean, in theory the roll control has better authority than with flap, due to the spanwise distribution of lift with flap/slats deployed, but the roll control deflections are varied according to speed with inboard spoilers assisting roll at higher speeds.
All this extracted from my ancient brain after a few hours on the type, but doubtless someone with a better brain and/or access to the manuals will give more detail?
Still wondering why the question.......................
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thanks for the reply.
The Reason for the question is easy. We are developing an aerodynamic flight model for a semi professional simulator.
The current model does not hold the bank, and you need permanent small inputs in turn direction to avoid an unwanted angle decreasing.
We got informations that below 28 degrees bank, the NG has slightly tendency to roll back to wings level.
Above 28 degrees there should be a slightly tendency to increase the bank and you need small inputs to avoid the increasing.
The Reason for the question is easy. We are developing an aerodynamic flight model for a semi professional simulator.
The current model does not hold the bank, and you need permanent small inputs in turn direction to avoid an unwanted angle decreasing.
We got informations that below 28 degrees bank, the NG has slightly tendency to roll back to wings level.
Above 28 degrees there should be a slightly tendency to increase the bank and you need small inputs to avoid the increasing.
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Hey.... no further ideas?
Is it correct that the tendency to roll back über 25 degrees exist and above 2t degrres the the plane tends a little bit to increase the bank.
Any kind of info would be very helpful.
Is it correct that the tendency to roll back über 25 degrees exist and above 2t degrres the the plane tends a little bit to increase the bank.
Any kind of info would be very helpful.
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Most swept wing aircraft have inherent roll stability.
Secondary effect of roll is sideslip. Sideslip increases the effective span of a swept wing and, therefore, it produces more lift and rolls back towards wings level.
So, yes, you will have to hold a small amount of roll input to maintain X angle of bank.
But bear in mind that in a climbing turn you will require out of turn aileron to maintain X angle of bank.
Welcome to the can of worms that is aerodynamics.
Secondary effect of roll is sideslip. Sideslip increases the effective span of a swept wing and, therefore, it produces more lift and rolls back towards wings level.
So, yes, you will have to hold a small amount of roll input to maintain X angle of bank.
But bear in mind that in a climbing turn you will require out of turn aileron to maintain X angle of bank.
Welcome to the can of worms that is aerodynamics.
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But bear in mind that in a climbing turn you will require out of turn aileron to maintain X angle of bank.
Have never experienced this in a 737 simulator. If you select CWS on autopilot and make a climbing turn at say 30 degrees angle of bank the control wheel stays centred throughout the climbing turn.
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TM, if you roll to 30 degrees and then only pitch you'll eventually end up pointing the other way with 120 degrees of bank on.
The only way to hold the initial bank angle is to roll out of the turn as your heading changes.
The only way to hold the initial bank angle is to roll out of the turn as your heading changes.
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Thanks For the reply.
I more interesting in the practical experiences.
In theory, the tendency to roll back to wings level is always there.
But i did a ride on a full flight sim, and i experienced the opposite. The aircraft remained relative stable in the bank condition without any input from the ailerons.
I tried to reproduce that with cockpit videos, abd i could see the same behavior. More or less stable bank angles
Often i observed in the videos that the pilots gave small aileron inputs to avoid higher bank angles.
I more interesting in the practical experiences.
In theory, the tendency to roll back to wings level is always there.
But i did a ride on a full flight sim, and i experienced the opposite. The aircraft remained relative stable in the bank condition without any input from the ailerons.
I tried to reproduce that with cockpit videos, abd i could see the same behavior. More or less stable bank angles
Often i observed in the videos that the pilots gave small aileron inputs to avoid higher bank angles.
On T/O at takeoff flap settings (1/5), there is a definite tendency to roll wings level requiring a small continuous into turn aileron input. This is climbing at V2+20 in takeoff config.
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While I’m not a “nitty-gritty” aerodynamicist I think its accurate to say that because airplanes operate in the real world, they are subject to nicks, dings, warps, stretches, wear ‘n’ tear, and the like … meaning that small things can, and often do, generate their own individual inputs that may not be as apparent as some other larger anomalies. Also, any cockpit video is at least somewhat incomplete unless it includes visuals on all 3 of the control “appliers” in the cockpit – column (pitch), wheel (bank), and rudder pedal (yaw) – including some sort of readable scale - and it’s a lot harder to get good comparative video of the rudder pedals simply due to their location.
Two things about the "data" upon which the "aero-model" is based…
1) airplane data should be the primary contributor to the aero-programming (and it is usually supplemented with a good understanding - or reference materials - as to what was intended to be the aerodynamic result) and…
2) a well-qualified and experienced pilot’s input regarding nuances can be invaluable.
And the final recognition should always be that a simulator (the best kind of simulator, included) is not the airplane. Any training conducted in that simulator should be conducted by someone with considerable knowledge of that airplane AND that (specific) simulator - with particular emphasis on what THAT simulator does, does well, and does not-so-well. Or, said differently, un-supervised "practice" or other use of the simulator, should be very heavily scrutinized with a full understanding of the influence that can be generated by that very powerful training tool (i.e., the simulator).
Getting someone to the point of being able to fly the simulator well is NOT and should NOT BE, the goal of training. We are teaching pilots to fly the AIRPLANE ... and the simulator is a tool to help do that ... it should be acknowledged as being a viable, incredibly capable tool, and much more so when used to its full capability, but, we MUST recognize that it can generate negative issues when it is depended upon to impart the knowledge instead of assisting the instructor in doing that job.
Two things about the "data" upon which the "aero-model" is based…
1) airplane data should be the primary contributor to the aero-programming (and it is usually supplemented with a good understanding - or reference materials - as to what was intended to be the aerodynamic result) and…
2) a well-qualified and experienced pilot’s input regarding nuances can be invaluable.
And the final recognition should always be that a simulator (the best kind of simulator, included) is not the airplane. Any training conducted in that simulator should be conducted by someone with considerable knowledge of that airplane AND that (specific) simulator - with particular emphasis on what THAT simulator does, does well, and does not-so-well. Or, said differently, un-supervised "practice" or other use of the simulator, should be very heavily scrutinized with a full understanding of the influence that can be generated by that very powerful training tool (i.e., the simulator).
Getting someone to the point of being able to fly the simulator well is NOT and should NOT BE, the goal of training. We are teaching pilots to fly the AIRPLANE ... and the simulator is a tool to help do that ... it should be acknowledged as being a viable, incredibly capable tool, and much more so when used to its full capability, but, we MUST recognize that it can generate negative issues when it is depended upon to impart the knowledge instead of assisting the instructor in doing that job.
TM, if you roll to 30 degrees and then only pitch you'll eventually end up pointing the other way with 120 degrees of bank on.
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Extract from the FCOM as follows: "With CWS engaged, the A/P maneuvers the airplane in response to control pressures applied by either pilot. The control pressure is similar to that required for manual flight. When control pressure is released the A/P holds existing attitude".
AirRabbit - in the 737, the control wheel position *should* be the only reference you need for flight crew inputs as use of the rudder in turns in a normal configuration is strongly advised against by Mr. Boeing as the Yaw Damper keeps the aircraft co-ordinated.
There is no way for flight crew to see or feel the Yaw Damper inputs, though I imagine it is recorded on the QAR and FDR somewhere.
There is no way for flight crew to see or feel the Yaw Damper inputs, though I imagine it is recorded on the QAR and FDR somewhere.
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yes thats all interresting, but what would like or need to know is much more the esperience part from our Bobby riders.
If you are in levelflight with flaps up and you turn with 25 degrees, does the aircraft hold the bank angle, or do you need to you need to use the yoke?
And how is it with 200 knots clean, 15 degrees flaps and 30 degrees flaps?
Thats what need:-)
If you are in levelflight with flaps up and you turn with 25 degrees, does the aircraft hold the bank angle, or do you need to you need to use the yoke?
And how is it with 200 knots clean, 15 degrees flaps and 30 degrees flaps?
Thats what need:-)
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Originally Posted by Jwscud
AirRabbit - in the 737, the control wheel position *should* be the only reference you need for flight crew inputs as use of the rudder in turns in a normal configuration is strongly advised against by Mr. Boeing as the Yaw Damper keeps the aircraft co-ordinated.
There is no way for flight crew to see or feel the Yaw Damper inputs, though I imagine it is recorded on the QAR and FDR somewhere.
There is no way for flight crew to see or feel the Yaw Damper inputs, though I imagine it is recorded on the QAR and FDR somewhere.
Last edited by AirRabbit; 26th Feb 2014 at 17:06.
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or do you need to you need to use the yoke?
And how is it with 200 knots clean, 15 degrees flaps and 30 degrees flaps?
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@Lord; thanks a lot... that's what i wanted to know.
Of course Flaps 30 with 200 knots is not a good idea :-)
Can you describe me whether the needed inputs to stabilise the bank angle are strong or just small short ones?
In other words, how fast tends the plane to go back to wings level from 25 degrees bank?
It would be a big present, if you are able to tell me that in degrees/ second.
Thanks again.
Of course Flaps 30 with 200 knots is not a good idea :-)
Can you describe me whether the needed inputs to stabilise the bank angle are strong or just small short ones?
In other words, how fast tends the plane to go back to wings level from 25 degrees bank?
It would be a big present, if you are able to tell me that in degrees/ second.
Thanks again.
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Will let LSM answer, but in the meantime....
I would also help if you gave the specific NG variant, they do have different airfoils. (and winglets may have some effect on rate at 200 kts)
Many, many variables associated with roll rate. Altitude, AP engaged/not engaged, winds, aileron trim, fuel load, flap settings, LE, speed brakes, etc...
In the sim, noted a much different world, yoke loading, and far too much input required for elevator and aileron trim than the real ac...
I would also help if you gave the specific NG variant, they do have different airfoils. (and winglets may have some effect on rate at 200 kts)
Many, many variables associated with roll rate. Altitude, AP engaged/not engaged, winds, aileron trim, fuel load, flap settings, LE, speed brakes, etc...
In the sim, noted a much different world, yoke loading, and far too much input required for elevator and aileron trim than the real ac...
Do a Hover - it avoids G
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Lateral stability and Spiral stability.
These two topics are easy to get muddled up.
So if I may a bit of non-type specific comment which I think may help this specific thread.
Lateral stability – kick Right rudder under any conditions of flight and if the aircraft rolls to the Right it has positive lateral stability and if it rolls Left it has negative lateral stability. This of course is the aircraft’s dihedral effect in action.
Spiral stability – put the aircraft in a bank and release the controls. If the aircraft slowly but surely increases its bank (it can take quite a while) then it is spirally unstable. If it tends to roll out then of course it is spirally stable.
But (and it is a very big but) with many aircraft one can demonstrate that the aircraft is both spirally stable and spirally unstable. How come? Well the spiral stability term is usually very weak, very weak indeed. This means that the slightest bit of residual aileron left when the controls are released will determine whether the aircraft rolls out or in to the spiral. So in the absence of a cockpit indicator that shows aileron angle allowing one to acurately set zero aileron one can be misled by the aircraft response.
Therefore the aileron control run sticktion, friction and breakout characteristics are very important in this context. This means that if you want to confuse your know-all mates just roll into a bank Left but finish with a tiny Right input as you release the controls and chances are the small residual Right aileron will stick on and cause the aircraft to roll out (spirally stable) then repeat the demo but release the controls without the touch of right aileron at the end as before and the opposite will happen.
Good for a beer.
These two topics are easy to get muddled up.
So if I may a bit of non-type specific comment which I think may help this specific thread.
Lateral stability – kick Right rudder under any conditions of flight and if the aircraft rolls to the Right it has positive lateral stability and if it rolls Left it has negative lateral stability. This of course is the aircraft’s dihedral effect in action.
Spiral stability – put the aircraft in a bank and release the controls. If the aircraft slowly but surely increases its bank (it can take quite a while) then it is spirally unstable. If it tends to roll out then of course it is spirally stable.
But (and it is a very big but) with many aircraft one can demonstrate that the aircraft is both spirally stable and spirally unstable. How come? Well the spiral stability term is usually very weak, very weak indeed. This means that the slightest bit of residual aileron left when the controls are released will determine whether the aircraft rolls out or in to the spiral. So in the absence of a cockpit indicator that shows aileron angle allowing one to acurately set zero aileron one can be misled by the aircraft response.
Therefore the aileron control run sticktion, friction and breakout characteristics are very important in this context. This means that if you want to confuse your know-all mates just roll into a bank Left but finish with a tiny Right input as you release the controls and chances are the small residual Right aileron will stick on and cause the aircraft to roll out (spirally stable) then repeat the demo but release the controls without the touch of right aileron at the end as before and the opposite will happen.
Good for a beer.
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Without getting involved in the science behind it, I have long since noticed that the aircraft wants to increase its bank angle at higher AOB, needing a small corrective aileron input, but shows no distinct tendency at lower AOB. Specific thresholds I have no idea of, but circa 28deg seems about right. One thing I can say with absolute certainty is that at low AOB, it is more stable than the Classic, but only in zero-winds; as soon as you get the lightest winds or turbulence, it's much less stable than the older variants. I assume it has a much lighter wing loading, and the tail empennages are much bigger, so the larger sail areas are the likely causes. Winglets don't seem to affect stability, they just make x-wind landings a bit trickier because they increase float in the flare while also increasing side sail area. I wouldn't say the NG was especially stable - it needs a lot of corrective inputs when flown manually, especially in even slightly windy conditions.