Asymmetrical aircraft have left- and right-hand sides which are not exact mirror images of each other. Although most aircraft are symmetrical, there is no fundamental reason why they must be, and design goals can sometimes be best achieved with an asymmetrical aircraft.

Types of asymmetry

Asymmetry arises from a number of design decisions. Some are inherent in the type of aircraft, while others are consciously introduced.

Engine torque

On a powerful propeller-driven aircraft, the engine

torque In physics and mechanics, torque is the rotational equivalent of linear force. It is also referred to as the moment of force (also abbreviated to moment). It represents the capability of a force to produce change in the rotational motion of th ...

driving the propeller creates an equal and opposite torque on the engine itself. Because the engine is fixed to the airframe, this reactive torque is transmitted to the aircraft, causing a tendency to roll in the opposite direction to the propeller. On some early types, especially during the pioneer years, a single engine drove twin propellers and the drive was arranged to turn the propellers in opposite directions to cancel their torque. Examples include the

Wright Flyer The ''Wright Flyer'' (also known as the ''Kitty Hawk'', ''Flyer'' I or the 1903 ''Flyer'') made the first sustained flight by a manned heavier-than-air powered and controlled aircraft—an airplane—on December 17, 1903. Invented and flown b ...

and the early designs by

J.W. Dunne John William Dunne (2 December 1875 – 24 August 1949) was a British soldier, aeronautical engineer and philosopher. As a young man he fought in the Second Boer War, before becoming a pioneering aeroplane designer in the early years of the 20th ...

. In a

rotary engine The rotary engine is an early type of internal combustion engine, usually designed with an odd number of cylinders per row in a radial configuration. The engine's crankshaft remained stationary in operation, while the entire crankcase and its ...

, common during World War I, the whole crankcase and cylinder assembly rotates with the propeller. This gives it an especially powerful torque reaction. Some aircraft, such as the

Sopwith Camel The Sopwith Camel is a British First World War single-seat biplane fighter aircraft that was introduced on the Western Front in 1917. It was developed by the Sopwith Aviation Company as a successor to the Sopwith Pup and became one of the ...

with its relatively heavy

Clerget 9B The Clerget 9B was a nine-cylinder rotary aircraft engine of the World War I era designed by Pierre Clerget. Manufactured in both France and Great Britain (Gwynnes Limited), it was used on such aircraft as the Sopwith Camel. The Clerget 9Bf was ...

engine, were noted for having a faster turn to one side than the other, which influenced combat tactics both with it and against it. By contrast, the contra-rotary Siemens-Halske engines were more balanced. On some single-engined types with more conventional engines, such as the Italian

Ansaldo SVA The Ansaldo SVA (named for Savoia-Verduzio-Ansaldo) was a family of Italian reconnaissance biplane aircraft of World War I and the decade after. Originally conceived as a fighter, the SVA was found inadequate for that role. Nevertheless, its ...

engine torque was counteracted by lengthening one wing to create extra lift on that side, providing a counter-torque. As engines became more powerful towards the end of World War II, some single-engined fighters used

contra-rotating propeller Aircraft equipped with contra-rotating propellers, also referred to as CRP, coaxial contra-rotating propellers, or high-speed propellers, apply the maximum power of usually a single piston engine, piston or turboprop engine to drive a pair of ...

s, both to handle the high power without increasing diameter and to reduce the torque asymmetry. Twin-engined aircraft with their propellers rotating in the same direction are also asymmetric.

Counter-rotating propellers Counter-rotating propellers, also referred to as CRP, are propellers which spin in opposite directions to each other. They are used on some twin- and multi-engine propeller-driven aircraft. The propellers on most conventional twin-engined a ...

avoid this, either by building pairs of engines to rotate their crankshafts in opposite directions, or by using a reversing gear in one of the propeller reduction gearboxes. Handed engines have rarely been used, owing to cost, but were sometimes used for naval aircraft such as the Sea Hornet, to simplify their handling across a narrow carrier deck. The wake of a propeller gains angular momentum, which can produce an asymmetric effect over the tail control surfaces, especially during takeoff when the engine power is at maximum but the aircraft speed is low. This does not affect the symmetry or otherwise of the aircraft itself.

Asymmetric thrust

While most aircraft have a central thrust line, it can sometimes be advantageous to break symmetry. For example, a single front-mounted tractor propeller may provide sufficient thrust, alongside a nose-mounted cockpit for good pilot visibility. In such cases the engine's thrust line is offset to one side, creating a turning moment. This moment is typically counteracted by making the tail fin work as a wing turned sideways, creating sideways lift to provide an equal and opposite turning force.

Oblique wing

The mechanism for varying the angle of a

swept wing A swept wing is a wing that angles either backward or occasionally forward from its root rather than in a straight sideways direction. Swept wings have been flown since the pioneer days of aviation. Wing sweep at high speeds was first investiga ...

is complicated, heavy and expensive. The two halves must be aligned with each other and each supported at one end. A single oblique wing may be supported in the middle and without needing a linking gear. The idea has been tried successfully on the

NASA AD-1 The NASA AD-1 was both an aircraft and an associated flight test program conducted between 1979 and 1982 at the NASA Dryden Flight Research Center, Edwards California, which successfully demonstrated an aircraft wing that could be pivoted obli ...

History

Pioneer years

The first airplane to fly, the ''

'' had an asymmetrical arrangement of pilot and engine. Both needed to be close to the centre of gravity above the front of the wing, so each was moved to one side to make room for the other. The propellers were symmetrically placed, so one engine drive chain was longer than the other. The longer, port drive belt was also twisted across itself so that the propellers rotated in opposite directions.

World War I

During World War I, Swiss-born Hans Burkhard designed several asymmetrical aircraft. Burkhard obtained German Patent number 300 676 for his design on 22 September 1915. The

Gotha G.VI The Gotha G.VI was an experimental bomber aircraft designed and built in Germany during World War I. Development The Gotha G.VI was an experimental bomber developed from the Gotha G.V. Using the standard wing cellule from the Gotha G.V the G.V ...

first flew in 1918, but did not reach production before the war concluded.AEROPLANE JUNE 2009Archived
/ref>

World War II

During World War II, German designer Richard Vogt experimented with several asymmetrical aircraft, including: *

Blohm & Voss BV 141 The Blohm & Voss BV 141 was a World War II German tactical reconnaissance aircraft, notable for its uncommon structural asymmetry. Although the Blohm & Voss BV 141 performed well, it was never ordered into full-scale production, for reasons t ...

observation aircraft, 1938 * Blohm & Voss BV 237 ground-attack ''stuka'' * Blohm & Voss P 178 jet-powered ground-attack ''stuka'' * Blohm & Voss P.194 mixed-power ground-attack and light bomber * Blohm & Voss P 202

oblique wing An oblique wing (also called a slewed wing) is a variable geometry wing concept. On an aircraft so equipped, the wing is designed to rotate on center pivot, so that one tip is swept forward while the opposite tip is swept aft. By changing its swee ...

jet fighter, 1942 The BV 141 was heralded by the Germans as the first asymmetric aircraft, an evaluation batch was built, but it was never ordered into full-scale production. The BV 237 ground-attack aircraft was ordered but later cancelled. Other projects and design studies of the period included: * Messerschmitt P.1109

jet * Isacson fighter-bomber, powered by two

Napier Sabre The Napier Sabre is a British H-24-cylinder, liquid-cooled, sleeve valve, piston aero engine, designed by Major Frank Halford and built by D. Napier & Son during World War II. The engine evolved to become one of the most powerful inline p ...

s.''Flight'' 21 October 1943, Page 452
/ref>

Modern aircraft

* The

includes

s, and flew 1979-1982. * The

Rutan Boomerang __NOTOC__ The Rutan Model 202 Boomerang is an aircraft designed and built by Burt Rutan. The design was intended to be a multi-engine aircraft that in the event of failure of a single engine would not become dangerously difficult to control due ...

is a twin-engined light aircraft featuring an 'outrigger' engine and boom beside a conventional fuselage with the engine at the front. * The

ARES Ares (; grc, Ἄρης, ''Árēs'' ) is the Greek god of war and courage. He is one of the Twelve Olympians, and the son of Zeus and Hera. The Greeks were ambivalent towards him. He embodies the physical valor necessary for success in war ...

was a prototype ground attack aircraft with a single engine intake on the left side of the aircraft, while a Gatling gun was mounted on the right side. This avoided the problem of combustion gases from the cannon being ingested into the intake.

References

{{reflist Wing configurations