Tail control effectiveness for tent posture for tail angles of –30 (large down triangle), –15 (down triangle), 0 (square), +15 (up triangle), and +30 (large up triangle).

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

Publication date

January 2014

DOI

10.1371/journal.pone.0085203.g013

Abstract

With, A & C, and without, B & D, leg or tail feathers. At low angle of attack, tail up produces a nose up moment relative to zero tail angle, while tail down produces a nose down moment relative to zero tail angle, C. Trimming with the tail is able to alter stability. Some reversal occurs at high angle of attack. Without leg feathers, the tail is ineffective at producing lift or pitching moment, B & D.</p

Extracted data

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Tail control effectiveness for tent posture for tail angles of –30 (large down triangle), –15 (down triangle), 0 (square), +15 (up triangle), and +30 (large up triangle).

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

Open link

Publication date

January 2014

DOI

10.1371/journal.pone.0085203.g013

Abstract

Extracted data

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

At low angles of attack, asymmetric wing pronation generates large rolling moments. At high angle...

At 0 angle of attack, there are clear differences in yaw stability between postures.

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

In particular, with legs down, the legs strongly act as weathervanes to stabilize the body in yaw...

Tail control effectiveness for sprawled posture for tail angles of –15 (down triangle), 0 (square), and +15 (up triangle).

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

With leg and tail feathers, A & C, and without, B & D. At low angle of attack, tail up produces a...

Leg control effectiveness for tent posture for leg angles of –30 (large down triangle), –15 (down triangle), 0 (square), +15 (up triangle), and +30 (large up triangle).

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

With leg and tail feathers, A & C, and without, B & D. At low angle of attack, leg up produces a ...

Tail control effectiveness for down posture for tail angles of –15 (down triangle), 0 (square), and +15 (up triangle).

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

At low angle of attack, tail up produces a nose up moment relative to zero tail angle, while tail...

Tail control effectiveness for biplane posture for tail angles of -15 (down triangle), 0 (square), and +15 (up triangle).

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

At low angle of attack, tail up produces a nose up moment relative to zero tail angle, while tail...

Asymmetric tail movement (lateral bending) effect on yaw, tent posture.

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

Baseline tent position (solid square), tail 10 left (open square), tail 20 left (open triangle), ...

Symmetric wing pronation/supination control effectiveness for tent posture for wing angles of –30 (large down triangle), –15 (down triangle), 0 (square), +15 (up triangle) and +30 (large up triangle).

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

Wing pronation/supination (wing angle of attack) is effective at changing the lift generated but ...

Presence or absence of leg and tail feathers can substantially alter longitudinal plane aerodynamics.

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

Sprawled and tent postures with and without feathers, all coefficients shown versus angle of atta...

Presence or absence of leg and tail feathers has effects on [65] metrics, although the usefulness of [65] is questionable (see Fig. S2).

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

Feathers present (black outline) or absent (grey outline) A, Maximum lift to drag ratio, by spraw...

Symmetric wing sweep control effectiveness for tent posture for wing sweep angles of –45 (large down triangle), –22.5 (down triangle), 0 (square), +22.5 (up triangle) and +45 (large up triangle).

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

Wing sweep is very effective at generating pitching moments. Forward sweep generates nose up mome...

Asymmetric wing tucking control effectiveness for tent posture; both wings out (solid square), no right wing (open square) and no wings (open diamond).

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

Tucking one wing produces large roll moments but at the expense of one quarter of the lift. Large...

The differences in yaw stability at different angles of attack also depend on the presence or absence of leg feathers.

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

A, At 0, some feathered-leg postures are more stable in yaw than others. B, At 60, postures that ...

Asymmetric wing sweep (e.g. left and right wings swept forward and backward) control effectiveness for tent posture for wing sweep angles of –45 (large down triangle), –22.5 (down triangle), 0 (square), +22.5 (up triangle) and +45 (large up triangle).

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

Forward sweep generates upward pitching moments, backward sweep generates downward pitching momen...

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

At low angles of attack, asymmetric wing pronation generates large rolling moments. At high angle...

At 0 angle of attack, there are clear differences in yaw stability between postures.

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

In particular, with legs down, the legs strongly act as weathervanes to stabilize the body in yaw...

Tail control effectiveness for sprawled posture for tail angles of –15 (down triangle), 0 (square), and +15 (up triangle).

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

With leg and tail feathers, A & C, and without, B & D. At low angle of attack, tail up produces a...

Leg control effectiveness for tent posture for leg angles of –30 (large down triangle), –15 (down triangle), 0 (square), +15 (up triangle), and +30 (large up triangle).

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

With leg and tail feathers, A & C, and without, B & D. At low angle of attack, leg up produces a ...

Tail control effectiveness for down posture for tail angles of –15 (down triangle), 0 (square), and +15 (up triangle).

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

At low angle of attack, tail up produces a nose up moment relative to zero tail angle, while tail...

Tail control effectiveness for biplane posture for tail angles of -15 (down triangle), 0 (square), and +15 (up triangle).

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

At low angle of attack, tail up produces a nose up moment relative to zero tail angle, while tail...

Asymmetric tail movement (lateral bending) effect on yaw, tent posture.

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

Baseline tent position (solid square), tail 10 left (open square), tail 20 left (open triangle), ...

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

Wing pronation/supination (wing angle of attack) is effective at changing the lift generated but ...

Presence or absence of leg and tail feathers can substantially alter longitudinal plane aerodynamics.

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

Sprawled and tent postures with and without feathers, all coefficients shown versus angle of atta...

Presence or absence of leg and tail feathers has effects on [65] metrics, although the usefulness of [65] is questionable (see Fig. S2).

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

Feathers present (black outline) or absent (grey outline) A, Maximum lift to drag ratio, by spraw...

Symmetric wing sweep control effectiveness for tent posture for wing sweep angles of –45 (large down triangle), –22.5 (down triangle), 0 (square), +22.5 (up triangle) and +45 (large up triangle).

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

Wing sweep is very effective at generating pitching moments. Forward sweep generates nose up mome...

Asymmetric wing tucking control effectiveness for tent posture; both wings out (solid square), no right wing (open square) and no wings (open diamond).

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

Tucking one wing produces large roll moments but at the expense of one quarter of the lift. Large...

The differences in yaw stability at different angles of attack also depend on the presence or absence of leg feathers.

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

A, At 0, some feathered-leg postures are more stable in yaw than others. B, At 60, postures that ...

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

Forward sweep generates upward pitching moments, backward sweep generates downward pitching momen...

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

At low angles of attack, asymmetric wing pronation generates large rolling moments. At high angle...

At 0 angle of attack, there are clear differences in yaw stability between postures.

Dennis Evangelista (3249696)
Griselda Cardona (498817)
Eric Guenther-Gleason (498831)
Tony Huynh (410738)
Austin Kwong (498822)
Dylan Marks (498848)
Neil Ray (498818)
Adrian Tisbe (498830)
Kyle Tse (498819)
Mimi Koehl (509772)

January 2014

In particular, with legs down, the legs strongly act as weathervanes to stabilize the body in yaw...

Tail control effectiveness for tent posture for tail angles of –30 (large down triangle), –15 (down triangle), 0 (square), +15 (up triangle), and +30 (large up triangle).

Abstract

Extracted data

Tail control effectiveness for tent posture for tail angles of –30 (large down triangle), –15 (down triangle), 0 (square), +15 (up triangle), and +30 (large up triangle).

Abstract

Extracted data

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