Aerobatic Figures

DISCLAIMER: These descriptions are NOT intended as instruction. No pilot should attempt to fly any of these figures in aircraft not certified for aerobatic flight. Further, no pilot should attempt these figures without training from a competent aerobatic instructor.


Introduction to Aresti 

by Brian Howard
When aerobatic competition first began there was no universal standard for describing an aerobatic sequence. Pilots used either their own shorthand notation, or simply described what they planned to fly using words. This was, of course, problematic for both pilots and judges, especially as the sport spread across the globe and language differences added further barriers to communication.
READ the full article which covers a look at Aresti figures and families, and construction on figures.
https://www.iac.org/intro-aresti 
 


Aileron RollsBarrel RollsSlow RollsAvalancheChandelleCompetition TurnCuban-EightEight-Sided LoopEnglish BuntHalf Cuban Eight • HammerheadHumpty-BumpImmelmanInside-Outside EightLazy-EightLoops • Cuban Eights • Reverse Half Cuban EightRolling TurnSpinSplit-SSquare LoopTailslideWing Over


Below is a list of aerobatic figures and the symbols used to represent them. Each figure starts at the small solid circle and ends at the vertical bar. All aerobatic figures start and end from horizontal lines in either upright or inverted flight. Solid lines describe upright flight, and dashed lines describe inverted flight.

Upright Line


Normal Flight

Inverted Line


Inverted Flight

The elements used in these figures are horizontal, vertical and 45° lines. These describe straight flight in these directions. Parts of loops connect these line segments. Rolls in 1/4, 1/2, 3/4, etc. increments up to 2 rotations can be added to the lines.

The looping portions in almost all figures have to have the same radius in all parts of a figure. For instance the quarter loops going into and coming out of a hammerhead have to have the same radius. There are some figures where this does not apply completely.

Rolls on vertical lines and on 45° lines have to be centered on this line to score well. Any deviation from the center results in a downgrading during a competition.

The K-values included with the competition figures give an indication of the difficulty of each of these maneuvers. Higher K-values mean more difficult maneuvers. Each figure is assigned a score from 0 to 10, which is then multiplied by the K factor.

A brief discussion of the Aresti Symbols by Gordon Penner, MCFI-Aerobatic and FAA Gold Seal CFI
https://youtu.be/Kh6ggZDnGJw

 

Rolls

There are four basic types of rolls: Aileron Roll, Barrel Roll, Slow Roll, and Snap Roll. The aileron and barrel rolls are not flown in aerobatic competitions.

 

Aileron Rolls

Aileron rolls are flown with the rudder and elevator in the neutral position during the roll. The aileron is fully deflected in the direction of the roll. This is the easiest of the rolls to fly.

The aileron roll is started by pulling the nose up to 20 - 30 degrees above the horizon. The elevator is then neutralized and the aileron fully deflected in the direction of the roll. The controls are maintained in that position till the roll is completed. After the roll is completed the nose is usually 20 - 30 degrees below the horizon.

 

Barrel Rolls

Barrel Roll

The Barrel roll is a combination between a loop and a roll. You complete one loop while completing one roll at the same time. The flight path during a barrel roll has the shape of a horizontal cork screw. Imagine a big barrel, with the airplanes wheels rolling along the inside of the barrel in a cork screw path. During a barrel roll, the pilot always experiences positive Gs. The maximum is about 2.5 to 3 G. The minimum about 0.5 G.

 

Slow Rolls

Slow Roll


(K=10)

Two-of-Four Roll


(K=7)

Slow rolls are flown normally on a straight line (one exception is rolls flown at the top of a loop). The roll rate has to be constant and the flight path must continue in a straight line. This requires constantly changing rudder and elevator control inputs throughout the roll. Hesitation or point rolls include stops at certain roll angles. Two-, four-, and eight-point rolls are allowed. A notation such as 2x4 denotes two points of a four-point roll. A number by itself (24, or 8) means a full 360º roll with the specified number of hesitations. If no points are specified, rolling is done without hesitations. A roll symbol that starts at the line denotes a half roll (see description of the Immelman). A roll symbol that crosses the line specifies a full roll (first figure).
 

A detailed explanation on how to properly execute a competition Slow Roll to the IAC judging standards. With Gordon Penner, MCFI-Aerobatic and FAA Gold Seal CFI with Jeff Granger, Intermediate competitor in an Extra 300.
https://youtu.be/g4r-KJoQqBY

 


This is a detailed explanation on how to properly execute the Point Roll maneuver to the IAC Competition judging standards. With Gordon Penner, MCFI-Aerobatic and FAA Gold Seal CFI with Jeff Granger, Intermediate competitor in an Extra 300.
https://youtu.be/HK_6w3-Vw8k

 

 

Snap Rolls

 

Inside Snap

 

Fig. 1 (K=13)

 

Outside Snap

 

Fig. 2 (K=17)

Snap rolls are normally flown on a straight line (one exception is the avalanche). A snap roll is similar to an accelerated horizontal spin – essentially an autorotation with one wing stalled. Figure 1 shows the symbol for a regular (inside) snap roll. Figure 2 shows an outside snap. In the inside snap, the plane is momentarily stalled by applying positive G forces. In an outside snap, the plane is stalled by applying negative G. In both cases rudder is then used to start autorotation just like in a spin.

 

Loops

 

Loop

 

This is one of the most basic maneuvers, but not easy to fly well. It has to be perfectly round, entry and exit have to be at the same altitude. To achieve this, the pilot must adjust for ever-changing speeds and G-loads, as well as wind drift.

The maneuver starts with a pull-up of about 3 to 4 G. Once past the vertical, the back pressure on the elevator is slowly relaxed to float over to top of the loop to keep it round. Past the top, the back pressure is slowly increased again throughout the back part till horizontal flight. The plane has to stay in one plane with the wings perpendicular to the flight path. Rudder is used to maintain a constant heading throughout figure and ailerons are used to maintain the orientation of the wings.

(K=10)


This is a detailed explanation on how to properly execute a Loop to the IAC judging standard. With Gordon Penner, MCFI-Aerobatic and FAA Gold Seal CFI with Jeff Granger, Intermediate competitor in an Extra 300. 
https://youtu.be/afqvQdo229Q

 

 

Avalanche

Avalanche

This is the basic loop with a snap roll at the top of the loop. The roll has to be centered at the top of the loop.

(K=21)

 

Square Loop

Square Loop

 

This is a variation of the basic loop. The two vertical lines and the horizontal line on top have to be of the same length. The exit line at the bottom has to be at least as long as the other three sides. The quarter loops that connect the four sides have to have the same radius at each corner.

(K=14)

 

Eight-Sided Loop

Octagon Loop

This is another variation of the basic loop. The two vertical lines, the 45° lines and the horizontal line on top all have to be of the same length. The exit line at the bottom has to be at least as long as the other seven sides. The eight loops that connect the eight sides have to have the same radius at each corner.

(K=19)

 

Immelman 

Immelman

The figure starts with a half loop to inverted flight. A half roll then results in horizontal upright flight. This trades speed for altitude.

(K=10)


This is a detailed explanation of the Immelman to competition judging standards. With Gordon Penner, MCFI-Aerobatic and FAA Gold Seal CFI with Jeff Granger, Intermediate competitor in an Extra 300. https://youtu.be/toy5bS68ziM

 

 

Split-S

Split-S

The figure starts with a half roll to inverted followed by the second half of a loop downward. This is another maneuver to reverse direction. This one, like the Immelman, does not preserve speed and altitude. In this case it trades altitude for speed.

(K=10)

 

English Bunt

Bunt

This figure also is the second half of a loop downward, this time an outside loop. You push forward and fly the second half of an outside loop till you are in horizontal inverted flight. Make sure you are not too fast going into the maneuver, otherwise you may exceed redline speed.

(K=8)

 

Half Cuban Eight

Half Cuban

Five-eighths of a loop to a down-line at a 45° angle. The plane is inverted at this point. Centered on this downline is a half roll from inverted to upright. A pullout to horizontal completes the figure.

 This is another one of the maneuvers that reverse direction. The downline can be used to adjust the altitude and speed at the end of the figure.

(K=14)
 


This is a detailed explanation of how to properly execute a Half Cuban Eight to the judging standards of competition aerobatics. With Gordon Penner, MCFI-Aerobatic and FAA Gold Seal CFI with Jeff Granger, Intermediate competitor in an Extra 300. 
https://youtu.be/I_X6y58ZN3A

 

Cuban Eight

Cuban Eight

Two Half Cuban Eights can be combined to form a Cuban Eight or Lay-down Eight. In this figure in competition the two looping parts have to be flown at the same altitude with the same radius. The exit has to be at the same altitude as the entrance to the figure.

(K=27)

 

Reverse Half Cuban Eight

Reverse Half Cuban

This figure starts with a pull to a 45° up-line. Centered on this line is a half roll from upright to inverted. Five-eighths of a loop complete the figure to horizontal flight. This again is one of the maneuvers that have been used to reverse direction while preserving altitude and airspeed

(K=16)

 

Reverse Cuban Eight

Reverse Cuban Eight

Like the Cuban Eight, a Reverse Cuban Eight can be formed by flying two Reverse Half Cuban Eights back to back.

(K=31)

 

Inside-Outside Eight

Inside-Outside Eight

This figure is similar to a Full Cuban Eight, but the second loop is an outside loop. Again, the two loops have to have the same radius and have to be flown at the same altitude, and entry and exit altitudes have to be the same.

It starts with a quarter loop into a vertical climb. When the plane stops climbing, it pivots around its vertical axis (which is now horizontal). The nose moves in a vertical circle from pointing up through the horizon to pointing down. After moving vertically down to pick up speed again, the maneuver is finished with the last quarter of a loop to horizontal flight. This figure can have optionally rolls on both the up-line and the down-line.

(K=20)

 

Hammerhead

Hammerhead

The quarter loop is flown just like the first part of a loop. When the plane is vertical, the elevator back pressure is released completely. During the vertical line up, some right aileron and right rudder is needed to maintain the vertical attitude because of the engine torque and p-factor. When the plane has slowed enough, full rudder initiates the turnaround. It is followed by right-forward stick (right aileron and forward elevator) to keep the plane from torquing off. The pivot is stopped with opposite rudder when the nose points straight down. When the pivot is completed, the ailerons and rudder are neutralized. Elevator and rudder are used to keep the nose pointing straight down. The pivot must be completed within ½ wingspan. Rolls on the downline require only aileron input if the plane is trimmed correctly.

This maneuver is sometimes called a hammerhead stall. This is not an accurate name because the airplane never stalls. The airspeed may be very low, close to zero, but since there is no wing loading during the turn-around, there is no stall (at zero g wing loading, a wing does not stall). The plane is flying throughout the maneuver with all the control surfaces effective (although sometimes only marginally so).

This also is one of the maneuvers that have been used to reverse direction while adjusting altitude and airspeed by changing the length of the down-line.

(K=17)


This is a detailed explanation on how to properly execute a Hammerhead to the IAC competition judging standard. With Gordon Penner, MCFI-Aerobatic and FAA Gold Seal CFI with Jeff Granger, Intermediate competitor in an Extra 300. 
https://youtu.be/g0Bc2R8Tn5U

 

 

Humpty-Bump

Humpty-Bump

The figure starts with a quarter loop to a vertical climb. A half loop then results in a vertical down-line. The figure completes with another quarter loop to horizontal flight. The looping part on the top of the figure does not have to be the same radius as the two other looping portions (the quarter loops going into and coming out of the humpty). Again, the figure can have optionally rolls on both the up-line and the down-line.

(K=13)


This is a detailed explanation on how to properly execute the Humpty Bump maneuver to the IAC Competition standards. With Gordon Penner, MCFI-Aerobatic and FAA Gold Seal CFI with Jeff Granger, Intermediate competitor in an Extra 300. 
https://youtu.be/g0Bc2R8Tn5U

 

Competition Turn

270-degree Turn

Competition turns are not the coordinated maneuvers that you use in normal flying. In a competition turn you first roll to a bank angle of at least 60°. Once the bank is established the turn is started. The plane has to maintain a constant bank and altitude throughout the turn. At the end of the turn, the turn is stopped and then the wings leveled for horizontal flight. The example shows the symbol for a 270° turn.

(K=5)


This is a detailed explanation on how to properly execute an Competition Turn to the IAC's competition judging standards. With Gordon Penner, MCFI-Aerobatic and FAA Gold Seal CFI with Jeff Granger, Intermediate competitor in an Extra 300. 
https://youtu.be/7sMUK4Zt44o

 

 

Rolling Turn

360-degree Rolling Turn, Four to the Inside

This maneuver combines a turn with rolls. The example shows a 360° turn with four rolls to the inside. The plane has to maintain a constant roll rate, constant turn rate and constant altitude throughout the rolling turn. This maneuver is quite difficult to fly. It requires constantly changing inputs from all three controls (rudder, aileron, elevator).

(K=46)

 

Tailslides

Fig. 3

Tailslide, Wheels Down


(K=15)

Fig. 4

Tailslide, Wheels Up


(K=15)

These maneuvers involve bringing the airplane to a complete stop in a vertical attitude and then sliding back a visible amount. The airplane must then tip over and fall through a vertical down position. Figure 3 indicates a tailslide with the wheels down during the flip. Figure 4 is a tailslide with the wheels up (inverted) during the flip. Going into the figure and coming out, the same rules apply as for other figures (quarter loops of constant and equal radius, vertical lines).

 

Spin

One Turn Upright Spin

Spins come in 1, 1¼, 1½, 1¾, and 2 turns. Spins may be entered from upright or inverted horizontal flight. During spin entry, the plane has to show a stall break, followed by the auto-rotation. The rotation has to stop exactly after the specified number of turns. Once the rotation has stopped, a vertical downline has to be established.

(K=15)


A detailed description on how to execute an aerobatic Spin to the IAC Judging standard. With Gordon Penner, MCFI-Aerobatic and FAA Gold Seal CFI with Jeff Granger, Intermediate competitor in an Extra 300. 
https://youtu.be/DjhkG2Kp-ww

 

Chandelle

The Chandelle is not used in aerobatic competition. On the FAA power commercial pilots test a Chandelle is defined as a maximum performance climbing turn through 180 degrees while maintaining a constant turn rate. The idea is that this is a "plan ahead" maneuver. You first establish a medium bank depending on the performance of your aircraft. Then a smooth pull-up is started. The angle of bank stays constant during the first 90 degrees of turn, while the pitch angle increases steadily. At the 90 degree point the plane has the maximum pitch angle which should be close to the critical angle of attack. During the second 90 degrees of turn, the pitch angle is held constant, while the bank angle is smoothly decreased to reach 0 degrees of bank at 180 degrees of turn with the airspeed close to the stall speed. The plane should not settle during the last part of the maneuver and the recovery. The decreasing bank angle during the second half of the Chandelle will maintain a constant turn rate together with the decreasing airspeed. The turn needs to be kept coordinated by applying the right amount of rudder. A Chandelle to the left is quite different than one to the right because of the ever-increasing amount of p-factor in the second half of the maneuver.

 

Wing Over

Wingover

The Wing-Over is a competition maneuver in glider aerobatics. You pull up and at the same time bank the plane. When the bank increases past 45°, the nose will start to drop while the bank keeps increasing and the plane keeps turning. Halfway through the maneuver, the plane has turned 90°, the fuselage is level with the horizon and the bank is 90°. The plane is above the original flight path. The nose then keeps dropping below the horizon and the plane keeps turning, while the bank is shallowed. When the bank drops below 45°, the nose is pulled up towards the horizon and the plane reaches horizontal flight with wings level after 180° of turn. At the completion of the maneuver, the plane is at the same altitude as on entry and flying in the opposite direction.

(K=8)

 

Lazy Eight

Like the Chandelle, the Lazy Eight is not a competition maneuver but is required for the power commercial pilot test. The aerobatics version of the Lazy Eight is two wingovers back-to-back. The FAA commercial pilot version is similar but the maximum bank is only 45 degrees instead of 90 degrees. The name Lazy Eight comes from the fact that the nose of the airplane is following a figure 8 on its side on the horizon