Talk:Aircraft flight dynamics
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This article may be too technical for most readers to understand.(September 2010) |
On 6 January 2023, it was proposed that this article be moved from Flight dynamics (fixed-wing aircraft) to Aircraft flight dynamics. The result of the discussion was moved. |
Untitled
[edit]OK we can definitely do better than this stubby article. It's not just orientation and control -- it's orientation, change of orientation due to the forces acting on the body, and then the control to maintain a specific orientation or another desired condition. Lets hear about the state space model, the perturbation equations, the stability derivatives!
- I don't think the usual mathematical handle-cranking approach would be that widely accessible. Still, I've made a start - what is missing are pretty pictures showing the contribution of the aircraft geometry to each stability derivative. As I see it, the aim of the game is to try to impart an intuitive understanding of the relationship between the aircraft geometry and its behaviour to as wide a readership as possible. Any fool can make an easy subject difficult, let's try to make this 'difficult' subject easy. Gordon Vigurs 09:04, 5 July 2006 (UTC)
- No Joy
- I agree with G.V. It already reads like an engineering lecture, not an encyclopedia for a general audience. Has anyone noticed that most Aerodynamics stuff is rated of "low importance" because of this problem? I'm an engineer and that stuff is important, but the pedantic crap in most of "our" articles makes MY EYES GLAZE OVER! Then they TEAR UP because WE, ALL OF US, are so INCAPABLE of helping others find the same JOY that we have in flying and understanding these machines. We would rather blind them with our intelligence. We are all SO SMART! HA!
- -- Gummer85 (talk) 05:43, 17 March 2009 (UTC)
sentence?
[edit]The positive X axis, in aircraft, points along the velocity vector, in missiles and rockets it points towards the nose.
in missiles and rockets it points towards the nose? wtf. "it's"?
Signs missing from article and wrong in picture
[edit]The article needs to explain that yaw increases with clockwise rotation as seen from above. Pitch increases as we tilt upwards. Roll increases as the right wing dips. The picture is wrong on all three counts.
- Sofixit Dan100 (Talk) 10:28, 29 October 2005 (UTC)
- Well the roll is right; right wing dipping down would be an increase in roll. Same with pitch.
- And yaw. Amended. --Ross UK 00:04, 5 July 2006 (UTC)
- This is still wrong for aircraft. The rotation directions are now correct, but are now counter-clockwise in pitch and roll. The aeronautical set is with Y positive to Starboard, Z positive Down. The 'positive to port' convention is used on ships and land vehicles. With spacecraft, which don't have a clearly defined front and rear and are oriented so as to point antennas or solar arrays, rather than in the direction of motion, the axis set definition is completely meaningless. I have changed the axis set for consistency with Babister, and most aeronautical texts on stability and control. The picture is now incorrect. Gordon Vigurs 08:14, 26 July 2006 (UTC)
- The sense for each axis is always a question of definition. Talking about aircraft, we usually have an aerodynamic coordinate system, an aircraft-fixed coordinate system (also called flight-mechanical one), and the earth-fixed one. They all follow the right hand rule. Depending on the coordinate system, the x-axis is positive towards to aircraft nose (flight-mechanical) or to the rear (aerodynamic). The systems just have to be consistent! —Preceding unsigned comment added by 195.124.114.37 (talk) 12:03, 16 September 2008 (UTC)
- Yeah. There is no absolute standard for sign convention. Right handed (as in X cross Y = Z) axes is probably good, and right hand rule to get the positive sign of rotations is good too, but whether x is positive or negative out the nose (and so on) isn't important, as long as it is properly defined before one starts bandying equations about. -- Gummer85 (talk) 02:10, 17 March 2009 (UTC)
Confusing explanation
[edit]I find the introductory definitions of yaw, pitch and roll quite confusing. Do these angles fix the orientation of the aircraft in absolute terms (based on fixed north–south, east–west and up–down axes), or do they only describe *changes* in attitude relative to axes based on the plane's current orientation?
For example, suppose an aircraft has a pitch of 10 degrees and a roll of 20 degrees. I imagine this to mean that the nose-to-tail axis is first pitched up 10 degrees to the horizontal, and the aircraft is then rotated 20 degrees about its nose-to-tail axis. If the aircraft now pitches up a further 5 degrees then is that 5 degrees a rotation about the wingtip-to-wingtip axis, or about a horizontal axis?
Similarly with yaw. Does it make sense to say an aircraft has a yaw of 30 degrees, and if so 30 degrees relative to what? Or does a yaw of 30 degrees just mean the aircraft has *changed* heading by 30 degrees and could actually be pointing in any direction? And is the yaw axis always vertical, or is it perpendicular to the nose-to-tail and wingtip-to-wingtip axes, and therefore varies depending on the aircraft's current attitude?
The "Coordinate systems" section, which I hoped might clarify, actually does nothing of the sort. It says that "the pose of an object" is described as follows:
"The positive X axis goes out the nose of the airplane The positive Y axis goes out the left wing of the airplane The positive Z axis goes out the top of the airplane
Roll, pitch and and yaw constitute rotation around X, Y, and Z, respectively. The directions of all three elements are depicted in the picture above."
This makes no sense, because if the axes are relative to the object then there is, at any time, never any rotation about any of the axes, so these angles can at best describe only changes in the "pose" of the object, not the "pose" itself.
I could go on, but I'll just conclude by saying I think this stuff need a rewrite by someone who fully understands it. 00:36, 23 July 2006 (UTC)
- You are correct - we are only interested in small angle changes about a nominal flight condition. However, you are also correct that the axis definition is far from clear - time to correct it. Thank you for your observation Gordon Vigurs 09:38, 23 July 2006 (UTC)
- Roll, pitch and yaw, usually refer to angular velocity components, moments or incremental angles. Large angles tend to adopt a different nomenclature in aeronautics, such as 'heading' for yaw and 'bank' for roll. However, there does not appear a universal nomenclature as to whether we are concerned about perturbation motions about axes, or specification of orientation, so I will not make an issue of it. In most contexts where large angles are used, the attitude would usually be defined as a quaternion. Gordon Vigurs 12:23, 23 July 2006 (UTC)
- I made a change to the coordinate systems section to try to clarify this. I think the main source of my confusion is that yaw, pitch and roll do sometimes, in some contexts, seem to refer to angles measured relative to a fixed coordinate system. So, in some contexts (though perhaps not aeronautics), an object's pitch, roll and yaw angles completely specify its orientation in space. That is what the coordinate systems section originally implied, in contradiction to other parts of the explanation. If you can find any way to further improve this, perhaps weaving in some of your explanation above, then please go ahead! 13:34, 23 July 2006 (UTC).
- Your modification is correct. It's just that in this context we are trying to linearise equations to study dynamics, rather than solve the equations of motion explicitly. Gordon Vigurs 19:28, 23 July 2006 (UTC)
- I consulted the article in hopes of clearing up precisely this point, so was somewhat disappointed. The above discussion helps, and it would be good to add something of the sort to the article. E.g. the yaw axes in particular is fixed with respect to the platform, and is used to describe things (angular velocity components, moments of inertia, torques, or incremental angles) that do not depend on the the current attitude of the platform. If the pilot looks forward and sees the world generally moving from right to left, then he would say he has a positive yaw rate, and could use the rudder to correct it. That applies regardless whether he's flying north, east, or upside-down. In the context of flight dynamics, I think in can make the same statement about pitch and roll. --Jrvz 13:31, 27 July 2006 (UTC)
Correct: the absolute alignment of the inertial axes (Earth axes) would only be important if the motion of the Earth contributed significantly to the total motion. Body axes are fixed with respect to the body, and move with respect to Earth axes. Wind axes are fixed with respect to the velocity vector and also move with respect to Earth axes. We are considering straight and level flight where the wind axes are initially aligned with Earth axes. In other flight conditions, there would be an initial large angle orientation to take into account in the equations of motion. I think the fact that for this particular design case, the two axes sets are initially aligned, is the source of the confusion. Perhaps analysis of the dynamics in a steady dive might help clear this up. Gordon Vigurs 18:47, 27 July 2006 (UTC)
I fixed two problems in the coordinate section: You cannot calculate orientation from the angular velocity, and inertia is not a vector (it's a tensor). --Jrvz 14:16, 27 July 2006 (UTC)
Incorrect; orientation is calculated from angular velocity by integration of the quaternion rates of change, each of which is a linear combination of the angular velocity components. Alternatively, and not to be recommended, the Euler angle rates of change may be calculated from the angular velocity, and integrated with respect to time. Finally, the direction cosines rates of change are also linear combinations of the angulatr velocity components, these also may be integrated to generate the rotation matrix, provided measures are observed to retain orthogonality. These are the methods used most frequently both in simulations of atmospheric flight vehicles and in inertial navigation. Not only can the rotation matrix be calculated from the angular velocity, this is in practice the preferred approach. Gordon Vigurs 20:28, 27 July 2006 (UTC)
Nobody ever claimed inertia was a vector, or even implied it. Gordon Vigurs 18:16, 27 July 2006 (UTC)
overlap between articles
[edit]This article, Spiral divergence, Phugoid, Dutch roll, and Instability modes of an aircraft overlap a lot and should probably be brought into agreement with one another. -68.59.121.204 03:30, 1 September 2006 (UTC)
- The cited articles give good qualitative descriptions of the phenomena, whilst we are trying to quantify them in terms of aircraft geometry. The articles are directed at different audiences. This article is already very long, and the presence of mathematical formulae would almost certainly deter readers who would benefit from these other articles. Perhaps this article should be placed in the 'Engineering' category, whilst those cited should be in the 'Aeronautics' category? Gordon Vigurs
Flight Dynamic by Robert Stengel
[edit]a much better reference is the model presented by Robert Stengel in his book on Flight Dynamics.
A mass as the inertia formally exists in his model wheres inertia is removed in this presentation. A pilot has a mass and a weight in Stengel's theory of flight.
This is a very importent thing to get correct for the FAA needs to correctly determine the flight theory. This aspect or weight of the aircraft confounds pilot training and good reference in flight dynamics is hard to find.
on page 49 of "Flight Dynamics" the whole evelope is state in a single Hamiltonian function. And the equation 2-3 states weight!!!!!!!!!!!!!!IN euler-angle representation.
And the absolute elegence of the Hamiltonian presentation far outweighs the other aspect.
Maybe another wiki section on Stengel's Hamiltonian method can be added?
--207.69.139.156 15:40, 28 October 2006 (UTC)
- Incorrect. The only place weight is introduced in this presentation is as a force in considering the equilibrium lift, everywhere where motion is being quantified, inertia is present.
- Our objective is not to impress academics with the elegance of the method, and in so doing present the general reader with yet more Emperor's new clothes, it is the extremely difficult task of relating aircraft geometry to its behaviour, in a form which is accessible to as wide an audience as possible. Hamiltonian methods by their nature provide a means of writing down the equations of motion literally without thinking about them, indeed omitting the very understanding which we are trying to impart.
- The article clearly states that we exploit our qualitative understanding to solving the equations of motion, in identifying which states are known to be relevant to which modes. It does not start from the most general possible solution and derive the answer by formal handle-cranking with absolutely no understanding of what the solutions mean in terms of causing air sickness. This illustrates the difference between an engineer's and a mathematician's thought processes.
- The easiest thing in the world is to make a simple subject difficult, any fool can do that. Our objective is to inform the uninformed, and not to impress our peers. Gordon Vigurs 10:57, 4 November 2006 (UTC)
- It was a suggestion idea. You are doing the hard part and making a very good resourse available.
- Thanks for reading the suggestion though.
--Eaglesondouglas 00:01, 13 November 2006 (UTC)
Cleanup Tag
[edit]I tagged the article for cleanup because of redundancies, gaps, and technical inaccuracies, especially in the beginning. Some of these problems have been discussed above. I made a first run at tackling these issues, and hope to see more people join in. Dhaluza 16:04, 16 December 2006 (UTC)
- There appears to be confusion between yaw, which is referred to inertial axes, and sideslip which is referred to the velocity vector. I don't mind what terms are used, but they must be kept distinct. Also, wings level is not the only equilibrium state; a steady turn takes place at an appropriate bank angle. During the turn the aircraft is in force and moment equilibrium. Regarding spacecraft, forces and moments do not arise as a consequence of orientation with respect to the velocity vector. Body rotational motion is effectively decoupled from translational motion, consequently none of this analysis is relevant to them. I suggest restricting the scope of the article explicitly to fixed wing aircraft. Gordon Vigurs 23:12, 18 December 2006 (UTC)
- Yes, the yaw/slip problem is where I got stuck and gave up. You explained it very well here, so perhaps you can take a crack at it? Dhaluza 04:33, 19 December 2006 (UTC)
- I fear this is an area where, to quote G B Shaw, we might be separated by a common language. I suspect the UK aeronautical jargon may differ subtly from US, and we need to agree terms for this article.Gordon Vigurs 12:02, 26 December 2006 (UTC)
- I had come here with the intention of doing a cleanup. But I feel that it may be better if an expert would attempt it. As such, I have put an "expert attention needed" tag.MW ℳ 09:06, 5 October 2011 (UTC)
stability dictates the whole plane
[edit]- front
- dense
- engine
- generator
- batteries
- armored cockpit
- high lifting
- large wingspan
- dense
- back
- large and light
- passenger room
- less lifting
- elevator with tip losses
- large and light
Somehow I cannot transform this into text. Arnero 21:16, 22 March 2007 (UTC)
The page picture
[edit]Would it be possible to change the picture demonstrating yaw, pitch and roll? The current one gets the point across fine, but is too 'cartoony' and detracts from the article in my opinion. Thanks! 82.37.152.185 20:59, 26 March 2007 (UTC)
- It does not "get the point across fine". Quite apart from style, it's a very confusing drawing with weird perspective and axes difficult to make out. --John of Paris 09:54, 3 July 2007 (UTC)
It's still cartooney and confusing
I see the date on the picture is August 2007. Today is 8 April 2009 It looks like the picture was changed or altered since those (old now) comments. I am confused though because I've always thought the current picture is cartoony and confusing. I was fixin' to make a comment in a new section when I saw this stuff (above). I'll look around for a better diagram, or make one - eventually. Anyone have something suitable sooner?
--Gummer85 (talk) 02:03, 8 April 2009 (UTC)
WikiProject class rating
[edit]This article was automatically assessed because at least one WikiProject had rated the article as start, and the rating on other projects was brought up to start class. BetacommandBot 09:51, 10 November 2007 (UTC)
systematic symbols
[edit](source -> destination)
- With
- source=axis_type and destination=axis_type
- with
- axis: R,P,Y or x,y,z
- source_type: angle A, rate T, movement along the axis V ?? Or: Y,Y',Y" or A,R,V (with x,y,z above or with r,p,y above), or A,R,'
- destination_type: momentum around that axis N, force along that axis F or Torque T (with A,R,V above)
- with
- source=axis_type and destination=axis_type
Inertia
- Momentum of inertia: M_axis
- mass: m
Arnero (talk) 12:59, 21 September 2008 (UTC)
...looking through all these lateral stability derivatives... what about yaw moment due to pitch velocity and pitch force due to roll rate and things like that for spiral mode? —Preceding unsigned comment added by 87.115.151.21 (talk) 16:37, 9 April 2009 (UTC)
I think we use Zw and Mw for Zalpha and Malpha... as in mw = zw x staticmargin as well as v for beta as above... maybe there are different conventions between the USA and UK on this? —Preceding unsigned comment added by 87.115.151.21 (talk) 16:43, 9 April 2009 (UTC)
tiny mistake
[edit]Mathematical mistake: mass is a constant, so it should remain after taking the derivative.
I will change the mistake in article. It doesn't affect the outcome (because the term will be neglected as unimportant in the next sentence), but makes it correct. —Preceding unsigned comment added by 213.35.207.11 (talk) 13:10, 15 November 2008 (UTC)
Yaw, pitch and roll combinations
[edit]see the image description at
Also, regarding the NASA pitch movie; arent the 2 wing rudders also used ? KVDP
Helicopters?
[edit]What is missing here is any hint how these notions apply to helicopters. --Bernd.Brincken (talk) 12:24, 11 December 2010 (UTC)
- True. Feel free to start chasing down information that would help ensure helicopter flight dynamics are covered, either in this article or, if necessary, in another. I'm doing that (just started today) for spacecraft flight dynamics. N2e (talk) 04:27, 13 December 2010 (UTC)
Spaceflight dynamics
[edit]The article seems to have a predominant, but unstated, assumption through most of the prose that we are talking about aircraft flight dynamics, despite the scope in the lede paragraph being explicitly defined as "the science of air and space vehicle orientation and control in three dimensions." It seems to undercover spaceflight dynamics.
My sense is we ought to balance it a bit, and clearly section the article into major sections that speak to both spaceflight dynamics AND aircraft flight dynamics, as well as sections that speak exclusively of aircraft flight dynamics or only of spaceflight dynamics. This would make it a bit more clear to the uninitiated reader of the encyclopedia. Perhaps then a separate section for the technically and calculus-oriented reader with all the reams of equations. What do others think about the balance, and what we might do to improve the article? Cheers. N2e (talk) 21:19, 12 December 2010 (UTC)
- The article has a hatnote saying This article deals with flight dynamics for aircraft. For spacecraft see flight dynamics (spacecraft).
- The body of the article focusses on aerodynamic forces, stability and performance of flight dynamics in the context of flight in the atmosphere. Spaceflight is essentially motion outside the atmosphere.
- I think the article should remain exclusively the dynamics of flight in the atmosphere where aerodynamic forces exist. Therefore I think the lede should be amended to remove the implication that this article covers spaceflight. Flight dynamics (satellites) is the article for dynamics of spaceflight. Dolphin (t) 21:40, 12 December 2010 (UTC)
- Your proposal sounds like a good solution to me. I did not realize this article was not about both once I looked it over today, probably because of that statement in the lede. N2e (talk) 03:07, 13 December 2010 (UTC)
- I have created a disambig page to prevent the kind of confusion I had earlier today. I've also removed the statement of scope that "spaceflight" dynamics are included in this article, and made a first-pass attempt to clean up the lede of both articles. N2e (talk) 04:23, 13 December 2010 (UTC)
- Thanks for those changes. They have significantly improved both articles. Dolphin (t) 06:18, 13 December 2010 (UTC)
- While we are on the topic, how about changing the names / moving pages around to properly reflect the contents? See my proposition here: Talk:Flight dynamics (satellites)#Name of the_article cherkash (talk) 06:59, 13 December 2010 (UTC)
- I have responded to cherkash's suggestion on the referenced Talk page.N2e (talk) 17:50, 13 December 2010 (UTC)
What a mess
[edit]I don't know who decided to do all this moving about, but it seems that a page which was generally about pitch yaw and rollhas been hijacked into something about aircraft dynamics.
Pitch yaw and roll apply to several things, not just aircraft. While spacecraft are now covered, what about underwater vehicles?
As a general topic, pitch yaw and roll was perfect, perhaps someone can fix that page so that it is either a db page or has a basic expanation that covers all topics form aircraft to robots?
At the moment it is a circular redirect between a couple of dynamics pages Chaosdruid (talk) 13:10, 4 September 2012 (UTC)
- +1. I noticed that the German articles on pitch, roll and yaw axis (de:Nickachse, de:Rollen_(Bewegung), de:Gieren) do not link to the English wikipedia. Unfortunately, there seems to be no adequate article. This looks like the closest you can get. Yet, it does not explicitly explain pitch, roll and yaw.-----<)kmk(>--- (talk) 03:59, 21 March 2014 (UTC)
Pedantry in action
[edit]Yep. Whole article is uncited (much of it dubious too). One big disorganized pedantic digression. It's basically "Look at me! I know a bunch of equations! I am SOOO smart!" I gave up trying to edit flight dynamics articles for better lay understanding a long time ago. The pedants are relentless. 108.7.229.24 (talk) 18:44, 18 December 2014 (UTC)
Merge
[edit]If you search for "Yaw, pitch, and roll" you will be redirected to Aircraft principal axes while you will be redirected to Flight dynamics (fixed-wing aircraft) if you search for "Yaw, pitch and roll". Since the same search (except a comma) will bring you to two different places a merger seems appropriate. Soerfm (talk) 11:01, 2 August 2014 (UTC)
Aircraft flight mechanics
[edit]What's the difference between Flight dynamics (fixed-wing aircraft) and Aircraft flight mechanics ?Df (talk) 16:03, 17 May 2015 (UTC)
"Attitude control (fixed-wing aircraft)" listed at Redirects for discussion
[edit]A discussion is taking place to address the redirect Attitude control (fixed-wing aircraft). The discussion will occur at Wikipedia:Redirects for discussion/Log/2020 September 30#Attitude control (fixed-wing aircraft) until a consensus is reached, and readers of this page are welcome to contribute to the discussion. Soumya-8974 talk contribs subpages 18:12, 30 September 2020 (UTC)
Redirect from aircraft attitude
[edit]One of the most severe structural problems I encounter at Wikipedia on a regular basis concerns the use of sloppy redirects.
In this case, aircraft attitude redirects here, but this page is entirely too small of a box.
Sometimes that's nevertheless the right choice, if you make the situation explicit, as I have endeavoured to do with this early addition to the lead:
These are collectively known as aircraft attitude, often principally relative to the atmospheric frame in normal flight, but also relative to terrain during takeoff or landing, or when operating at low elevation. The concept of attitude is not specific to fixed-wing aircraft, but also extends to rotary aircraft such as helicopters, and dirigibles, where the flight dynamics involved in establishing and controlling attitude are entirely different.
You can argue that this doesn't belong here, but not without posting the redirect to its own proper, independent context. — MaxEnt 21:39, 23 December 2022 (UTC)
Note 1: I just noticed that the previous talk entry concerns a failed effort to address this dating back to 2020, but I'm not wading into that historic effort, as I'm fundamentally a tumbleweed editor. — MaxEnt 21:44, 23 December 2022 (UTC)
Note 2: Well, if I was making a hasty decision on my own steam, I would instantly refactor this by creating a new page reference frame (aeronautic engineering), move the vast majority of the content here that does not involve force mechanics over there (as the "main article" for said content), and punt the aircraft attitude redirect over there, too, where it would be far less of a bad fit.
I took inspiration for the proposed page name from this article title:
— MaxEnt 21:55, 23 December 2022 (UTC)
Note 3: I'm trying to run away, and not succeeding. In my dither, I realized something further: I read extensively on Wikipedia, and I've seen this problem before. It shows up all the time in biology. For example, a page I visited yesterday, via LGBT (cultural), via gay (psycho-obligate identity), was homosexuality (biological). But homosexuality covers far more than humans. So of course, the page fixates on human homosexuality, and might drift sporadically into mammalian homosexuality, or an even larger animalian frame of sexual reproduction, as appropriate. Even worse, if there's a medical aspect to the topic, the page might well become human of thing (highly medicalized).
Aircraft are an interesting technological bestiary. You end up with some of the same infernal overlap and cross-pollination. Over at armoured fighting vehicle, which I visited yesterday, there's a reminiscent yuckiness in the dividing line between IFVs and APCs. In particular, the article on self-propelled artillery does not want to quickly state that these are a subcategory of armoured fighting vehicles, because, well, the armour isn't much to shake a stick at, and they instead chose to bloat the sentence out with provisos concerning this inadequacy, which made it rambling and thus unsuitable to place earlier in the lead, which estranges it more than desired from its natural next of kin (as I see things).
So, when that axis is irredeemably clouded, what to do instead? In this instance, what strikes me is that the page title contains the word "dynamics". My main subject of interest right now is control theory, as applied to human systems (like wrangling marbles with chopsticks), meaning "control" in the sense of civilizational homeostasis.
The frame and the axes are not dynamic, and all the meat on those bones only delays this article from addressing its own dynamic concerns. So I'm left amplifying my original page split suggestion above. — MaxEnt 22:35, 23 December 2022 (UTC)
Requested move 6 January 2023
[edit]- The following is a closed discussion of a requested move. Please do not modify it. Subsequent comments should be made in a new section on the talk page. Editors desiring to contest the closing decision should consider a move review after discussing it on the closer's talk page. No further edits should be made to this discussion.
The result of the move request was: moved. (closed by non-admin page mover) 2pou (talk) 07:30, 14 January 2023 (UTC)
- Flight dynamics (fixed-wing aircraft) → Aircraft flight dynamics
- Flight dynamics (spacecraft) → Spacecraft flight dynamics
– WP:NATURAL. The current titles, particularly the aircraft one, are unwieldy and plain ugly. "Aircraft flight dynamics" is a plain English, broadly understandable term, also used in real life [1]. The proposed titles would also bring consistency with Aircraft flight mechanics, Aircraft flight control system, Spacecraft propulsion, Spacecraft attitude control etc. I don't think we need overprecise "fixed-wing" in the title, since helicopter flight controls is also at a logical title, and a hatnote could clarify the scope anyway. No such user (talk) 09:17, 6 January 2023 (UTC)
- I completely support these two proposals, per No such user. -- Ariadacapo (talk) 10:00, 7 January 2023 (UTC)
Move content to Aircraft dynamic modes
[edit]The content in the section "Dynamic stability and control" should be merged with Aircraft dynamic modes as it is a dedicated page covering the same topic but without the same level of depth, so it would benefit from having the content moved over. The section should then be kept as a WP:SUMMARY section. – BrandonXLF (talk) 21:43, 15 April 2024 (UTC)
Please fix failed to parse error
[edit]Under "Longitudinal Modes" heading seeing a "failed to parse" error for formula. Can someone please fix this? Pmarshal (talk) 23:36, 15 October 2024 (UTC)
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