The Morane-Saulnier AI (also MoS.27 , MoS.29 and MoS.30 ) is a French parasol-wing fighter aircraft that was produced by Morane-Saulnier during World War I.
60-837: The AI evolved via the AC from the Morane-Saulnier Type N , but with a parasol wing. It had a rigidly braced wing with ailerons replacing the N's wing warping. It was intended to replace the Nieuport 17 and SPAD VII in French service, in competition against the SPAD XIII and Nieuport 28 . It was ordered as a back-up for the SPAD XIII, in case the ongoing problems with its Hispano-Suiza continued to be unresolved. Its Gnome Monosoupape 9N 120 kW (160 hp) rotary engine
120-411: A coordinated turn , adverse yaw is effectively compensated by the use of the rudder , which results in a sideforce on the vertical tail that opposes the adverse yaw by creating a favorable yawing moment. Another method of compensation is ' differential ailerons ', which have been rigged so that the down-going aileron deflects less than the up-going one. In this case the opposing yaw moment is generated by
180-452: A French military engineer, Charles Renard , built and flew an unmanned glider incorporating ailerons on each side (which he termed 'winglets'), activated by a Boulton-style pendulum controlled single-axis autopilot device. The pioneering U.S. aeronautical engineer Octave Chanute published descriptions and drawings of the Wright brothers ' 1902 glider in the leading aviation periodical of
240-406: A clean, streamlined aircraft, it was not easy to fly due to a combination of stiff lateral control caused by using wing warping instead of ailerons , sensitive pitch and yaw controls caused by using an all flying tail, and very high landing speed for the period. The Type N mounted a single unsynchronized forward-firing 7.9 mm Hotchkiss machine gun which used the deflector wedges first used on
300-410: A difference in profile drag between the left and right wingtips. Frise ailerons accentuate this profile drag imbalance by protruding beneath the wing of an upward-deflected aileron, most often by being hinged slightly behind the leading edge and near the bottom of the surface, with the lower section of the aileron surface's leading edge protruding slightly below the wing's undersurface when the aileron
360-619: A former curator of the Smithsonian Air & Space Museum in Washington, D.C., and other researchers, due to the patent they had received the Wrights stood firmly on the position that all flying using lateral roll control, anywhere in the world, would only be conducted under license by them. The Wrights subsequently became embroiled with numerous lawsuits they launched against aircraft builders who used lateral flight controls, and
420-537: A horizontal knife edge, but rather came to a point which extended to the rear of the rudder and elevators. Production aircraft were given service designations based on whether they had 1 Vickers machine gun (designated MoS 27 ), 2 Vickers guns (designated MoS 29 ) or none (designated MoS.30 ). The AI was briefly operated by a number of escadrilles from February 1918, but by mid-May 1918, most had been withdrawn from operations, and replaced by SPAD XIIIs due to structural problems. After that problem had been resolved,
480-422: A new and useful method of controlling an airplane. The patent application included the claim for the lateral control of aircraft flight that was not limited to wing warping, but through any manipulation of the "....angular relations of the lateral margins of the airplanes [wings].... varied in opposite directions". Thus the patent explicitly stated that other methods besides wing-warping could be used for adjusting
540-716: A number carried civil registrations. Three AIs are flown from La Ferté-Alais . The Fantasy of Flight collection in Polk City, Florida has an AI tested by the United States Army Air Service in 1918 at McCook Field in Ohio until being sold off for private use. It subsequently joined the Tallmantz Collection which was then acquired by Fantasy of Flight in 1985 and restored in the late 1980s. Another AI, formerly flown by Charles Nungesser
600-609: Is at the Old Rhinebeck Aerodrome , and was flown in the weekend airshows there. Data from War Planes of the First World War: Volume Five Fighters General characteristics Performance Armament Aircraft of comparable role, configuration, and era Morane-Saulnier Type N The Morane-Saulnier N , also known as the Morane-Saulnier Type N , was a French monoplane fighter aircraft of
660-502: Is basically countered by aircraft yaw stability and also by the use of differential aileron movement. The Frise-type aileron also forms a slot, so air flows smoothly over the lowered aileron, making it more effective at high angles of attack. Frise-type ailerons may also be designed to function differentially. Like the differential aileron , the Frise-type aileron does not eliminate adverse yaw entirely. Coordinated rudder application
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#1732776384989720-411: Is caused partly by the change in drag between the left and right wing. The rising wing generates increased lift, which causes increased induced drag . The descending wing generates reduced lift, which causes reduced induced drag. Profile drag caused by the deflected ailerons may add further to the difference, along with changes in the lift vectors as one rotates back while the other rotates forward. In
780-431: Is deflected upwards, substantially increasing profile drag on that side. Ailerons may also be designed to use a combination of these methods. With ailerons in the neutral position, the wing on the outside of the turn develops more lift than the opposite wing due to the variation in airspeed across the wing span, which tends to cause the aircraft to continue to roll. Once the desired angle of bank (degree of rotation about
840-402: Is moved downward, the other is moved upward: the down-going aileron increases the lift on its wing while the up-going aileron reduces the lift on its wing, producing a rolling (also called 'banking') moment about the aircraft's longitudinal axis (which extends from the nose to the tail of an airplane). Ailerons are usually situated near the wing tip , but may sometimes also be situated nearer
900-412: Is still needed when ailerons are applied. By careful design of the mechanical linkages, the up aileron can be made to deflect more than the down aileron (e.g., US patent 1,565,097). This helps reduce the likelihood of a wing tip stall when aileron deflections are made at high angles of attack. In addition, the consequent differential in drag reduces adverse yaw (as also discussed above ). The idea
960-422: Is that the loss of lift associated with the up aileron carries no penalty while the increase in lift associated with the down aileron is minimized. The rolling couple on the aircraft is always the difference in lift between the two wings. A designer at de Havilland invented a simple and practical linkage and their de Havilland Tiger Moth classic British biplane became one of the best-known aircraft, and one of
1020-493: The Bristol Aeroplane Company developed an aileron shape that is pivoted at about its 25 to 30% chord line and near its bottom surface [1] , in order to decrease stick forces as aircraft became faster during the 1930s. When the aileron is deflected up (to make its wing go down), the leading edge of the aileron starts to protrude below the underside of the wing into the airflow beneath the wing. The moment of
1080-893: The First World War . Designed and manufactured by Morane-Saulnier , the Type N entered service in April 1915 with the Aéronautique Militaire designated as the MoS-5 C1 . It also equipped four squadrons of the Royal Flying Corps , in which it was nicknamed the Bullet, and was operated in limited numbers by the 19th Squadron of the Imperial Russian Air Force . While the Type N was
1140-621: The Morane-Saulnier Type L , in order to fire through the propeller arc. The later I and V types used a .303 -in Vickers machine gun . A large metal "casserolle" spinner, appearing much like those used on the Deperdussin Monocoque pre-war racer of 1912, was designed to streamline the aircraft; but caused the engines to overheat. In 1915, the spinners were removed and the overheating problems disappeared with little loss in performance. Morane-Saulnier manufactured 49 aircraft but
1200-465: The Wright brothers patent war . The Wright company quietly changed its aircraft flight controls from wing warping to the use of ailerons at that time as well. Others who were previously thought to have been the first to introduce ailerons included: The Wright Brothers' Ohio patent attorney Henry Toulmin filed an expansive patent application and on May 22, 1906, the brothers were granted U.S. Patent 821393. The patent's importance lay in its claim of
1260-473: The fuselage is parallel to the flight path. A simple gauge on the instrument panel called the slip indicator , also known as "the ball", indicates when this coordination is achieved. Particularly on larger or faster aircraft, control forces may be extremely heavy. Borrowing a discovery from boats that extending a control surface's area forward of the hinge lightens the forces needed first appeared on ailerons during World War I when ailerons were extended beyond
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#17327763849891320-501: The later version of the Santos-Dumont Demoiselle , which only warped the wingtips "downward". One of the disadvantages of this setup was a greater tendency to yaw than even with basic interconnected ailerons. During the 1930s a number of light aircraft used single acting controls but used springs to return the ailerons to their neutral positions when the stick was released. Used on the first-ever airframe to have
1380-400: The trailing edge of each wing of a fixed-wing aircraft . Ailerons are used in pairs to control the aircraft in roll (or movement around the aircraft's longitudinal axis ), which normally results in a change in flight path due to the tilting of the lift vector . Movement around this axis is called 'rolling' or 'banking'. Considerable controversy exists over credit for the invention of
1440-427: The wing root . Modern airliners may also have a second pair of ailerons on their wings, with the two positions distinguished by the terms 'outboard aileron' and 'inboard aileron'. An unwanted side effect of aileron operation is adverse yaw —a yawing moment in the opposite direction to the roll. Using the ailerons to roll an aircraft to the right produces a yawing motion to the left. As the aircraft rolls, adverse yaw
1500-603: The 1938 popular US Piper J-3 Cub monoplane possessed Frise ailerons as designed and helped introduce them to a wide audience. A claimed benefit of the Frise aileron is the ability to counteract adverse yaw. To do so, the leading edge of the aileron has to be sharp or bluntly rounded, which adds significant drag to the upturned aileron and helps counterbalance the yaw force created by the other aileron turned down. This can add some unpleasant, nonlinear effect and/or potentially dangerous aerodynamic vibration (flutter). Adverse yaw moment
1560-603: The Cessna 152/172 series can be roll controlled with rudder alone. The rudder of the Boeing 737 has more roll authority over the aircraft than the ailerons at high angles of attack. This led to two notable accidents when the rudder jammed in the fully deflected position causing rollovers (see Boeing 737 rudder issues ). Some aircraft such as the Fokker Spin and model gliders lack any type of lateral control. Those aircraft use
1620-641: The Junkers J 7 all-duralumin metal demonstrator monoplane using them—the J 7 led directly to the Junkers D.I all-duralumin metal German fighter design of 1918, which had conventionally hinged ailerons. The main problem with this type of aileron is the dangerous tendency to stall if used aggressively, especially if the aircraft is already in danger of stalling, hence the use primarily on prototypes, and their replacement on production aircraft with more conventional ailerons. Engineer Leslie George Frise (1897–1979) of
1680-545: The Wrights. There are still conflicting claims today over who first invented the aileron. Other 19th century engineers and scientists, including Charles Renard , Alphonse Pénaud , and Louis Mouillard , had described similar flight control surfaces. Another technique for lateral flight control, wing warping , was also described or experimented with by several people including Jean-Marie Le Bris , John Montgomery , Clement Ader , Edson Gallaudet , D.D. Wells, and Hugo Mattullath. Aviation historian C.H. Gibbs-Smith wrote that
1740-459: The aileron and its function, i.e., lateral or roll control, the flight control device was invented and described by the British scientist and metaphysicist Matthew Piers Watt Boulton in his 1864 paper On Aërial Locomotion . He was the first to patent an aileron control system in 1868. Boulton's description of his lateral flight control system was "the first record we have of appreciation of
1800-418: The aileron lower surface, ahead of the aileron hinge, by a lever arm. They reduce the force needed by the pilot to deflect the aileron and are often seen on aerobatic aircraft. As the aileron is deflected upward, the spade produces a downward aerodynamic force, which tends to rotate the whole assembly so as to further deflect the aileron upward. The size of the spade (and its lever arm) determines how much force
1860-558: The aileron was "....one of the most remarkable inventions... of aeronautical history, which was immediately lost sight of". In 1906 the Wright brothers obtained a patent not for the invention of an airplane (which had existed for a number of decades in the form of gliders) but for the invention of a system of aerodynamic control that manipulated a flying machine's surfaces, including lateral flight control, although rudders , elevators and ailerons had previously been invented. Pairs of ailerons are typically interconnected so that when one
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1920-405: The aileron. In addition to reducing the risk of flutter, mass balances also reduce the stick forces required to move the control surface in maneuvers. Some aileron designs, particularly when fitted on swept wings, include fences like wing fences flush with their inboard plane, in order to suppress some of the spanwise component of the airflow running on the top of the wing, which tends to disrupt
1980-424: The aileron. In some aircraft the aileron construction may be too heavy to allow this system to work without an excessive increase in the weight of the aileron. In this case, the weight may be added to a lever arm to move the weight well out in front to the aileron body. These balance weights are tear drop shaped (to reduce drag), which make them appear quite different from spades, although both project forward and below
2040-492: The aileron. The Wright brothers and Glenn Curtiss fought a years-long legal battle over the Wright patent of 1906, which described a method of wing-warping to achieve lateral control. The brothers prevailed in several court decisions which found that Curtiss's use of ailerons violated the Wright patent. Ultimately, the First World War compelled the U.S. Government to legislate a legal resolution. A much earlier aileron concept
2100-559: The aircraft were returned to service, but as advanced trainers, with new purpose-built examples being designated MoS 30 E.1 . Many were used post-war after having been sold off as surplus, as aerobatic aircraft, including one which was flown by Charles Nungesser for a tour across the US. Fifty-one MoS 30 E.1s were purchased by the American Expeditionary Force as pursuit trainers. In addition one undesignated example
2160-531: The airflow over a wing, disrupt the airflow and reduce the amount of lift generated. Many modern aircraft designs, especially jet aircraft , use spoilers in lieu of, or to supplement ailerons, such as the F4 Phantom II and Northrop P-61 Black Widow , which had almost full width flaps (there were very small conventional ailerons at the wingtips as well). All aircraft with dihedral have some form of yaw-roll coupling to promote stability. Common trainers like
2220-513: The brothers were consequently blamed for playing "...a major role in the lack of growth and aviation industry competition in the United States comparative to other nations like Germany leading up to and during World War I". Years of protracted legal conflict ensued with many other aircraft builders until the U.S. entered World War I, when the government imposed a legislated agreement among the parties which resulted in royalty payments of 1% to
2280-488: The cockpit so that different power settings or flight attitudes can be compensated for. Some large aircraft from the 1950s (including the Canadair Argus ) used free floating control surfaces that the pilot controlled only through the deflection of trim tabs, in which case additional tabs were also provided to fine-tune the control to provide straight and level flight. Spades are flat metal plates, usually attached to
2340-541: The combination of "joystick/rudder-bar" controls that directly led to the modern flight control system , the Blériot VIII in 1908, some designs of early aircraft used "wingtip" ailerons, where the entire wingtip was rotated to achieve roll control as a separate, pivoting roll-control surface—the AEA June Bug used a form of these, with both the experimental German Fokker V.1 of 1916 and the earlier versions of
2400-509: The day, L'Aérophile , in 1903. This prompted Esnault-Pelterie, a French military engineer, to build a Wright-style glider in 1904 that used ailerons in lieu of wing warping . The French journal L'Aérophile then published photos of the ailerons on Esnault-Pelterie's glider which were included in his June 1905 article, and its ailerons were widely copied afterward. The Wright brothers used wing warping instead of ailerons for roll control on their glider in 1902, and about 1904 their Flyer II
2460-416: The earliest printed aeronautical use of 'aileron' was that in the French aviation journal L'Aérophile of 1908. Ailerons had more or less completely supplanted other forms of lateral control, such as wing warping , by about 1915, well after the function of the rudder and elevator flight controls had been largely standardised. Although there were previously many conflicting claims over who first invented
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2520-542: The earliest, to use differential ailerons. On the earliest Pioneer Era aircraft, such as the Wright Flyer and the later, 1909-origin Blériot XI and Etrich Taube , lateral control was effected by twisting the outboard portion of the wing so as to increase or decrease lift by changing the angle of attack. This had the disadvantages of stressing the structure, being heavy on the controls, and of risking stalling
2580-609: The flight control device was in general use. Gibbs-Smith stated on several occasions that if the Boulton patent had been revealed at the time of the Wright brothers ' legal filings, they might not have been able to claim priority of invention for the lateral control of flying machines. The fact that the Wright brothers were able to gain a patent in 1906 did not invalidate Boulton's lost and forgotten invention. Ailerons were not used on manned aircraft until they were employed on Robert Esnault-Pelterie 's glider in 1904, although in 1871
2640-632: The laminar flow above the aileron, when deflected downwards. Used during aviation's pre-war "pioneer era" and into the early years of the First World War, these ailerons were each controlled by a single cable, which pulled the aileron up. When the aircraft was at rest, the ailerons hung vertically down. This type of aileron was used on the Farman III biplane 1909 and the Short 166 . A "reverse" version of this, utilizing wing-warping, existed on
2700-512: The leading edge in the airflow helps to move up the trailing edge, which decreases the stick force. The down moving aileron also adds energy to the boundary layer. The edge of the aileron directs air flow from the underside of the wing to the upper surface of the aileron, thus creating a lifting force added to the lift of the wing. This reduces the needed deflection of the aileron. Both the Canadian Fleet Model 2 biplane of 1930 and
2760-401: The longitudinal axis) has been obtained, the pilot uses opposite aileron to prevent the angle of bank from increasing due to this variation in lift across the wing span. This minor opposite use of the control must be maintained throughout the turn. The pilot also uses a slight amount of rudder in the same direction as the turn to counteract adverse yaw and to produce a "coordinated" turn wherein
2820-435: The model was quickly rendered obsolete by the pace of aircraft development at that time. Data from War Planes of the First World War :Volume Five General characteristics Performance Armament Related development Aircraft of comparable role, configuration, and era Aileron An aileron (French for "little wing" or "fin") is a hinged flight control surface usually forming part of
2880-500: The necessity for active lateral control as distinguished from [passive lateral stability].... With this invention of Boulton's we have the birth of the present-day three torque method of airborne control" as was praised by Charles Manly . This was also endorsed by C.H. Gibbs-Smith. Boulton's British patent, No. 392 of 1868, issued about 35 years before ailerons were "reinvented" in France, became forgotten and lost from sight until after
2940-548: The outer portions of an airplane's wings to different angles on its right and left sides to achieve lateral roll control. John J. Montgomery was granted U.S. Patent 831173 at nearly the same time for his methods of wing warping. Both the Wright Brothers patent and Montgomery's patent were reviewed and approved by the same patent examiner at the United States Patent Office, William Townsend. At
3000-404: The pilot needs to apply to deflect the aileron. A spade works in the same manner as a horn but is more efficient due to the longer moment arm . To increase the speed at which control surface flutter ( aeroelastic flutter ) might become a risk, the center of gravity of the control surface is moved towards the hinge-line for that surface. To achieve this, lead weights may be added to the front of
3060-410: The same benefit. Trim tabs are small movable sections resembling scaled down ailerons located at or near the trailing edge of the aileron. On most propeller powered aircraft, the rotation of the propeller(s) induces a counteracting roll movement due to Newton's third law of motion , in that every action has an equal and opposite reaction. To relieve the pilot of having to provide continuous pressure on
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#17327763849893120-663: The side with the increased angle of attack during a maneuver. By 1916, most designers had abandoned wing warping in favor of ailerons. Researchers at NASA and elsewhere have been taking a second look at wing warping again, although under new names. The NASA version is the X-53 Active Aeroelastic Wing while the United States Air Force tested the Adaptive Compliant Wing . Spoilers are devices that when extended into
3180-441: The stick in one direction (which causes fatigue) trim tabs are provided to adjust or trim out the pressure needed against any unwanted movement. The tab itself is deflected in relation to the aileron, causing the aileron to move in the opposite direction. Trim tabs come in two forms, adjustable and fixed. A fixed trim tab is manually bent to the required amount of deflection, while the adjustable trim tab can be controlled from within
3240-402: The time Townsend indicated that both methods of wing warping were invented independently and were sufficiently different to each justify their own patent award. Multiple U.S. court decisions favoured the expansive Wright patent, which the Wright Brothers sought to enforce with licensing fees starting from $ 1,000 per airplane, and said to range up to $ 1,000 per day. According to Louis S. Casey,
3300-416: The wing warping technique, which was one reason for Esnault-Pelterie's decision to switch to ailerons. By 1911 most biplanes used ailerons rather than wing warping—by 1915 ailerons had become almost universal on monoplanes as well. The U.S. Government, frustrated by the lack of its country's aeronautical advances in the years leading up to World War I , enforced a patent pool effectively putting an end to
3360-473: The wingtip and provided with a horn ahead of the hinge. Known as overhung ailerons, possibly the best known examples are the Handley Page Type O (first flight 17 December 1915), Sopwith Snipe , Fokker Dr.I and Fokker D.VII . Later examples brought the counterbalance in line with the wing to improve control and reduce drag. This is seen less often now, due to the Frise type aileron which provides
3420-473: Was built with a wood monocoque fuselage, and fitted with a 130 kW (170 hp) Le Rhone 9R rotary and two 7.7 mm (0.303 in) Vickers machine guns. Post-war, examples in civilian use were re-engined with the 100 kW (130 hp) Clerget 9Ba rotary engine in a shorter cowling. In addition to military operators, the Morane-Saulnier AI was popular with French aerobatic pilots and
3480-470: Was mounted in the nose, in a tight fitting circular open-front cowling. The strut braced constant chord two-spar parasol wing was slightly swept back, and fitted with horn-balanced ailerons . The spars and ribs of the circular section teardrop-shaped fuselage were wood, wire-braced and covered in fabric, and faired out with wood stringers. Unlike most previous Morane-Saulnier designs, the AI's fuselage did not end in
3540-710: Was patented in 1868 by British scientist Matthew Piers Watt Boulton , based on his 1864 paper On Aërial Locomotion . The name "aileron", from French, meaning "little wing", also refers to the extremities of a bird's wings used to control their flight. It first appeared in print in the 7th edition of Cassell's French-English Dictionary of 1877, with its lead meaning of "small wing". In the context of powered airplanes it appears in print about 1908. Prior to that, ailerons were often referred to as rudders , their older technical sibling, with no distinction between their orientations and functions, or more descriptively as horizontal rudders (in French, gouvernails horizontaux ). Among
3600-425: Was the only aircraft of its time able to do a coordinated banked turn. During the early years of powered flight the Wrights had better roll control on their designs than airplanes that used movable surfaces. From 1908, as aileron designs were refined it became clear that ailerons were much more effective and practical than wing warping. Ailerons also had the advantage of not weakening the airplane's wing structure as did
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