Correct Answer :   bicycle

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Explaination : Typical bicycle landing gear arrangement is shown in the above diagram. As shown in the diagram, bicycle arrangement has 2 main landing gear and small outrigger wheels. It requires flat attitude for operation.

Correct Answer :   5 unit aft from front wheel

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Explanation : Typically, for bicycle landing gear CG is aft of the midpoint between two wheels measured from front wheel.
Hence, Location of CG = distance/2 = 10/2 = 5 unit aft from front wheel.

Correct Answer :   Maximum attitude of an aircraft with tail touching the ground with struts fully extended

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Explanation : Tipback angle is defined as Maximum attitude of an aircraft with tail touching the ground and the struts are completely extended. Wing loading is the ratio of weight and reference area. Lift to drag ratio is called aerodynamic efficiency.

Correct Answer :   tail dragger

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Explaination : Above diagram is representing a typical tail dragger landing gear arrangement. As shown in the diagram, tail dragger configuration has two main gears located ahead of cg. It also includes an auxiliary wheel at tail as shown in the diagram.

Correct Answer :   tricycle

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Explaination : Typical tricycle landing gear arrangement is shown in the above diagram. As shown in the diagram, two main landing gears are located after the c.g. It has an auxiliary third wheel which is placed forward of the centre of gravity.

Correct Answer :   multi bogey

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Explaination : Above diagram is illustrating a typical multi- bogey landing gear arrangement. As shown in the diagram, multi bogey arrangement has more than 4 wheels to support higher impact loads and to carry heavy structure. Pusher prop is type of engine propulsion system.

Correct Answer :   single main gear

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Explanation : Given, weight W = 50000 lb. If weight w < 50000 lb then, the single main landing gear arrangement is used. Other arrangements are used if weight w is > 50000 lb.

Correct Answer :   single main landing gear arrangement

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Explaination : Above diagram is showing typical single main landing gear arrangement. Lofting is used to generate overall wing shape via conic lofting method. Empennage is tail portion of the aircraft. Thrust loading is defined as thrust to weight ratio.

Correct Answer :   After CG of the aircraft

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Explanation : Main wheel is located after the cg of the aircraft in typical tricycle landing gear arrangement. This arrangement is stable. An auxiliary wheel is located ahead of cg of the aircraft. It can be used for large crab angle as well.

Correct Answer :   Inherent unstable

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Explanation : Tail dragger arrangement consists total of 3 wheels: 2 main and 1 auxiliary. Tail dragger arrangement is inherently Unstable. Tail dragger arrangement provides more propeller clearance and it is lighter in weight.

Correct Answer :   Overturn angle

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Explaination : The term marked is called overturn angle. It is measure of the tendency to overturn during taxied around sharp corner. For typical aircrafts this should not be more than 63°. AOA is angle between relative freestream velocity and chord.

Correct Answer :   wheel diameter for braking

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Explaination : Above figure is used for initial and statistical estimation of required wheel rim diameter. This estimation is based on kinetic energy absorption at the time of braking. Lift curve represents relationship between lift and AOA.

Correct Answer :   45 knots

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Explanation : Given, tire pressure p = 25 psi
Minimum dynamic hydroplaning speed V can be estimated by using,
V = 9*p^0.5 = 9*25^0.5 = 9*5 = 45 knots.

Correct Answer :   6125J

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Explaination : Given, landing weight W = 2500N, stall speed v = 9.8m/s. Number of wheels n = 2.
Kinetic energy K.E. = 0.5*W*v²/g*n = 0.5*2500*9.8²/9.81*2 = 6125 J

Correct Answer :   7.53 unit

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Explanation : Given, Weight on wheel W = 100 unit.
For, general aviation aircraft Diameter D = 1.51*W0.349 = 1.51*100^0.349 = 7.53 unit.

Correct Answer :   3.73 unit

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Explanation : Given, Weight W = 200 unit
Width of general aviation is given by,
Width w = 0.715*W^0.312 = 0.715*200^0.312 = 3.73 unit.

Correct Answer :   0.8546

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Explanation : For bomber, weight W = 80 unit.
Width of main wheel d = 0.1043*W^0.48 = 0.1043*80^0.48 = 0.8546 unit.

Correct Answer :   To absorb the shock during landing

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Explanation : Undercarriage should absorb the shock or impact during landing and make ride smooth during taxiing. Lift is primarily generated by wings. Lift can be increased by high lift devices. Cargo container is used to carry cargo.

Correct Answer :   Solid spring shock arrangement

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Explanation : Solid spring shock arrangement is an example of shock absorber. Lift curve slope is defined as change in lift by change in alpha. Flap is secondary control surface.

Correct Answer :   vertical velocity at touchdown

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Explanation : Stroke is defined as the amount of deflection required by shock absorbing system. Deflection required by shock absorber depends upon number of parameters. For example, vertical velocity at touchdown is one of the important factor affecting the stroke of the shock absorber. Lift at cruise will be same as weight at cruise.

Correct Answer :   26 unit

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Explanation : Approximate value of external diameter can be given by,
D = piston diameter + 0.3* piston diameter
= 20 + 0.3*20 = 26 unit.

Correct Answer :   9 in

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Explanation : Given, sink speed = 9 fps.
Required stroke in inch = vertical or sink speed = 9 inch.

Correct Answer :   simple oleo schematic

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Explaination : A typical oleo mechanism is shown in the diagram. Simple oleo system has been illustrated in the figure. Drag polar is graphical representation of drag characteristics. Wheel track and base distance are related to wheel terminology not to shock absorber.

Correct Answer :   Oleo

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Explanation : Oleo type shock absorber is widely used shock absorber. Longerons are structural elements of the aircraft. They are straight and heavy. They are lesser in number and opposes the bending.

Correct Answer :   required deflection of the shock absorbing system

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Explanation : Stroke of absorber can be defined as the required deflection of the shock absorbing system. Stroke of the shock absorber depends upon number of factors such as shock absorbing material etc. Lift required at takeoff will be more than its weight.

Correct Answer :   in the wing gear retraction

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Explaination : As shown in figure, a typical gear retraction geometry is shown. As shown in the figure, gear is retracted inside the wing. Hence, it is called in the wing retraction geometry. Cockpit is front section of an aircraft through where pilot controls the aircraft.

Correct Answer :   wing podded retraction

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Explaination : A typical wing podded gear retraction is shown in the diagram. Fuselage Podded will not be retracted inside wing. Lift curve is used to represent relationship between lift and angle of attack. Lift curve is very important parameter.

Correct Answer :   in the fuselage gear retraction

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Explaination : Typical gear retraction in the Fuselage is shown in the above diagram. It is similar to in the wing retraction geometry with difference being in the location of retraction. Here, gear will be retracted in the fuselage itself. Headroom is related to passenger cabin.

Correct Answer :   gear retraction geometry

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Explaination : Landing gear retraction is one of the important factor of landing gear design. Typical gear retraction geometry is shown in the above diagram. As shown in the diagram undercarriage is retracted inside the wing fuselage junction.

Correct Answer :   gear retraction geometry in the nacelle

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Explaination : Typical, gear retraction inside the nacelle is shown in the diagram. This type of arrangement can be seen in early prop aircraft. Gear retraction in fuselage or wing fuselage junction are nearly similar to each other.

Correct Answer :   typical fuselage Podded retraction

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Explaination : Above diagram is representing the typical layout of fuselage Podded retraction geometry. Here, landing gear will be retracted inside the fuselage section of the aircraft. Thrust required will be based on operating conditions. At cruise, thrust required is equal to drag.

Correct Answer :   sliding pivot mechanism

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Explaination : The above figure is illustrating a typical sliding pivot mechanism. It is different from the typical four bar linkage system. Lift augmentation is used to increase lift. Thrust can be increased by thrust augmentation. Drag polar is graph showing relationship between drag and lift.

Correct Answer :   pivot point estimation

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Explaination : Above diagram is a simple schematic diagram illustrating the method to estimate the pivot point. Drag characteristics can be observed through numbers of graph for example, drag polar etc. Drag polar will be used to generate a typical drag property variation with respect to lift variation.

Correct Answer :   withstand aerodynamic loads and breaking loads

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Explanation : Typical landing gear retraction arrangement includes a diagonal arm. This diagonal arm for nose wheel is called drag brace. Drag brace is used to withstand the breaking loads and aerodynamic loads as well.

Correct Answer :   The point at which the landing gear leg is attached to the aircraft

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Explanation : The point at which landing gear or undercarriage leg is attached to the aircraft is known as pivot point. This pivot point can be located anywhere along the normal bisector to the line joining the up and down wheel positions. Lift to drag will be maximum at thrust required minimum.

Correct Answer :   Plane which can land and takeoff from the water

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Explanation : Typical definition of a seaplane is as follows: plane which takes off from water and lands on water is known as a seaplane. Seaplanes are capable of landing and takeoff from water. Seaplanes are not necessarily same as other types of aircrafts.

Correct Answer :   Search and rescue mission

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Explanation : A typical seaplane can land and takeoff through water only. If we were given the task to design a seaplane then, one of the most applicable use of such plane would be for search and rescue. In fact, seaplanes are being used for such tasks. However, seaplanes cannot be used for every size of wave.

Correct Answer :   typical seaplane geometry

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Explaination : A typical seaplane geometry is shown in the diagram. A seaplane is unique kind of plane which is capable of takeoff and land through water. F16 and Mig21 are fighter aircraft and are not seaplanes. Aerostats is different type of aircraft.

Correct Answer :   v shaped bottom

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Explanation : Most of the seaplanes are designed with V shaped bottom. The V shaped bottom can be used to reduce the water impact Loads. However, few seaplanes were built with flat bottoms also. Hence, correct option will be v shaped bottom.

Correct Answer :   higher

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Explanation : Deadrise is defined as the height of V in v shaped bottom. The angle is called deadrise angle. Deadrise angle should increase for higher landing speed. Deadrise angle is increased towards the nose of the plane. Deadrise is dependent on speed also.

Correct Answer :   Curtiss NC

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Explanation : Curtiss NC is an example of seaplane. A321 neo is a commercial fixed wing aircraft that can only land or takeoff from the airfields. Cessna 172 is a prop aircraft that is not a seaplane.

Correct Answer :   floatplanes, flying boat, etc

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Explanation : Typically, seaplanes can be divided as follows: Floatplanes, flying boat etc. Aerostats are type of aircraft. Aerostats are driven based on buoyancy. They are lighter than air vehicle. Typical seaplanes are categorized as heavier than air vehicle.

Correct Answer :   0.25 unit

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Explanation : Approximate value of step size = 0.05*beam = 0.05*5 = 0.25 unit.

Correct Answer :   Pneumatic

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Explanation : Pneumatic system is an example of aircraft subsystem. Gear retraction refers to the method and configuration through which landing gears are retracted in the aircraft. Landing gear are used to withstand impact during landing.

Correct Answer :   Hydraulic system

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Explanation : Hydraulic subsystem will be correct choice for control surface deflection. Pneumatic subsystem is used for low power or pressure requirements. Fuel system includes fuel tanks, fuel lines etc.

Correct Answer :   provide compressed air for pressurization

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Explanation : A typical pneumatic system is used for operation requiring less amount of power or pressure. It is used to provide compressed air for pressurization of the aircraft. More pressure output can be achieved by using hydraulic system.

Correct Answer :   Typical APU system at tail

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Explaination : APU is an example of subsystem of aircraft. Hydraulic system is used for higher output power. Thrust augmentation is used to increase the amount Thrust. Thrust augmentation can be used for short takeoff distance.

Correct Answer :   1 unit to 3 unit

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Explaination :  Given, empty weight, W = 100 unit.
Typically, range of avionics weight can be estimated as follows.
Avionics weight range = 0.01*W to 0.03*W
= 0.01*100 to 0.03*100 = 1 unit – 3 unit.

Correct Answer :   generators, transformers, cables, etc

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Explanation : A typical electrical system consists of generators, transformers, cables etc. It is used to provide electrical energy. Drag polar is graphical representation of drag. It is used to show relationship between drag and lift.

Correct Answer :   simplified hydraulic system

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Explaination : A typical hydraulic system is shown. A simplified hydraulic system can be observed in the diagram. As shown in the diagram a simplified hydraulic system includes actuators, feed lines etc. Fuel tank can be located in fuselage, in wing or in tail.

Correct Answer :   hydraulic pump space requirements

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Explanation : A typical hydraulic system will affect conceptual design based on space requirements for pumps typically. Control surface are located at the wing or at tail section. Lift required at tail will be affected by which type of airfoil is used.