Bibliography

The following works have been the principal references that have guided the theoretical underpinning of FlyingSticks. There are many earlier works not necessarily listed here that have been great contributors to the understanding of archery, but the focus of FlyingSticks is current knowledge, not how it has been derived. Other references are included because they cover similar issues in other fields of endeavor but none the less have relevance to archery.

General Archery

Elliot, M. (ed), Reference Guide for Recurve Archers, ed 5, (2002),
http://www.archersreference.pwp.blueyonder.co.uk

FITA Coach's Manual, Recurve Bow Equipment Tuning Module, Intermediate Level.

World Archery Rule Book, http://rulebook.worldarchery.org/PDF/Official/2015-04-01/

Wikipedia - Trajectory of a Projectile, (Trajectory of a projectile with air resistance).
https://en.wikipedia.org/wiki/Trajectory_of_a_projectile.

Technical and Academic Articles

Ashby W.E. (Ed)  A collection of articles based on arrow penetration field trials spanning 1996-2011. Available form many sites including  http://www.tuffhead.com/education/ashby.html and http://www.tradgang.com/ashby/

Bartlett R.M, The Aerodynamics of Javelin Flight – A Re-Evaluation, International Symposium on Biomechanics in Sports (1987) p71-87.

Brown M, A Generalized Error Function In n Dimensions, (1963) NMC-TM-63-8. (U.S. Naval Missile Center, ASTIA Cat 401 722).

Danberg J.E. Weinacht P, An Approximate Method for Pitch-Damping Prediction, 2003, ARL-TR-3007, Army Research Laboratory.

Denny, M. (2003). Bow and Catapult Internal Dynamics. European Journal of Physics 24 367-378.

Ellison, S. Controlling Bow Behaviour with Stabilization. 1996.

Engng Math., 1997, 31(4), 285-306.

Heller M, Evaluation of arrow release in highly skilled archers using an acoustic measurement system, 9th Conference of the International Sports Engineering Association (2012).

Horsak B., Heller M, Baca A, A kinematic Analysis of Finger Motion in Archery, no ref. https://ojs.ub.uni-konstanz.de/cpa/article/download/3413/3211.

Jammalamadaka S.R, Sengupta A, Topics in Circular Statistics, World Scientific - Mathematics 30 Apr.2001.

Jones R.T, Notes on the Stability and Control of Tailless Airplanes, National  Advisory Committee for Aeronautics, Tech Note No. 837 (1941).

King, Whitney 2012 "Archery is Not Normal" from https://sites.google.com/site/technicalarchery/technical-discussions-1/Archery-is-Not-Normal.

Kooi  B.W. Bow - Arrow Interaction in Archery, Journal of Sport Sciences 16:721-731 (1998).

Kooi  B.W. The Archer’s Paradox and Modelling, a Review. History of Technology, 1998, 20:125-137.

Kooi  B.W. Functioning of Ears and Set-back at Grip of Asiatic Bows.  Journal of the Society of Archer-Antiquaries 39:73-77 (1996)

Kooi  B.W. The Design of the Bow. Proceedings Koninklijke Nederlandse Akademie van Wetenschappen 97(3): 1–27 (1994).

Kooi  B.W. On the Mechanics of some Replica Bows. Journal of the Society of Archer-Antiquaries 36:14-18 (1993).

Kooi  B.W. The Cut and Try Method in the Design of the Bow. Engineering Optimization in Design Processes, Eschenauer, H.A.; Mattheck, C.; Olhoff, N. (eds): Lecture Notes in Engineering 63, Berlin: Springer-Verlag, 283-292 (1991).

Kooi  B.W. On the Mechanics of the Modern Working-Recurve Bow. Computational Mechanics 8: 291-304 (1991).

Kooi  B.W. On the Mechanics of the Bow and Arrow.  Journal Engineering Mathematics 15(2):119-145 (1989).

Kooi  B.W.  On the Mechanics of the Bow and Arrow. PhD-thesis, Mathematisch Instituut, Rijksuniversiteit Groningen, The Netherlands (1983).

Kooi  B.W. and Sparenberg J. A. On the Mechanics of the Arrow: the Archer's Paradox. Journal of Engineering Mathematics 31(4):285-306 (1997).

Kooi B.W.  Bergman C.A.  An Approach to the Study of Ancient Archery using Mathematical Modelling. Antiquity 71:(271) 124–134 (1997).

Kooi B.W.  Sparenberg J. A.  On the Static Deformation of the Bow.   Journal of Engineering Mathematics 14(1):27-45 (1980).

Klopsteg, P.E. (1943). Physics of Bow and Arrows. American Journal of Physics 11, 175-192.

Lane D. (2013) The Construction of the Graduated Handicap Tables for Target Archery. Downloaded from Crystal Palace Bowmen.

Liston T.L, Physical Laws of Archery, 6th ed. 1995, Liston Inc.

Marlow, W. C. (1981). Bow and Arrow Dynamics. American Journal of Physics 49, 320-333.

Meyer, H.O. (2015) Applications of Physics to Archery. arXiv.org > physics > arXiv:1511.02250

Miyazaki T. et al, Aerodynamic Properties of an Archery Arrow, Sports Eng (2013) 16:43-54.

Mukaiyamaa, K. and K Suzukia, T Miyazakia, H Sawada, Aerodynamic properties of an arrow: Influence of point shape on the boundary layer transition. Procedia Engineering 13 (2011) 265-270.

Murphy, C.H. and W.H. Mermagen, Flight Motion of a Continuously Elastic Finned Missile, Army Research Laboratory (2002) ARL-TR-2754.

Nelson, W, Use of Circular Error Probability in Target Detection, The MITRE Corporation, Bedford, MA; United States Air Force (1988)

Nesteruk I. and Cartwright J.H.E, Turbulent skin-friction drag on a slender body of revolution and Gray's Paradox, Journal of Physics: Conference Series 318 (2011) 022042.

Okawaa, K and Y. Komoria, T. Miyazakia, S.Taguchia, H.Sugiura. Free flight and wind tunnel measurements of the drag exerted on an archery arrow. Procedia Engineering 60 (2013) 67-72.

Park, J.L. Compound-archery-bow nocking point locus in the vertical plane. Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology, June 1, 2010; vol. 224, 2: pp. 141-154.

Park, J.L. The Behaviour of An Arrow Shot from a Compound Archery Bow. Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology, March 1, 2011; vol. 225, 1: pp. 8-21.

Park, J.L. A compound archery bow dynamic model, suggesting modifications to improve accuracy, Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology, December 1, 2009; vol. 223, 4: pp. 139-150.

Park, J.L. Arrow behaviour in the vertical plane during and immediately following the power stroke of a recurve bow. Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology, March 2014; vol. 228, 1: pp. 16-23.

Park, J.L. Arrow Behaviour in Free Flight. Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology, December 2011; vol. 225, 4: pp. 241-252.

Park, J.L. Minimizing wind drift of an arrow. Proc. IMechE (2011) Vol. 226 Part P: J. Sports Eng and Tech.

Park, J.L. The Aerodynamic Drag and Axial Rotation of an Arrow. Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology, 2011 225:199.

Park J.L. The behaviour of an arrow shot from a compound archery bow. Proceedings of the Institution of Mechanical Engineers, Part P: J. Sports Engineering and Technology, 2011, 225, 8–21.

Park J.L, Larven J.E. Analysis of scores and arrow grouping at major international archery competitions. Proc I MechE PartP: J Sports Engineering and Technology, 2014, 1-9

Park J.L The third set with James Park. Bow International, 2019, March 7,
http://www.bow-international.com/features/the-third-set-with-james-park/

Pekalski, R. Experimental and theoretical research in archery. J. Sports Sci., 1990, 8, 259-279.

Petrofsky JS, Phillips CA. Closed-loop control of movement of skeletal muscle.
Crit Rev Biomed Eng. 1985;13(1):35-96. Review. PubMed PMID: 3902360.

Rheingans W.J. Exterior Ballistics of Bows and Arrows. Archery Review (March 1936) 236 ff

Rieckmann, M. and J. Codrington, B. Cazzolato, Modeling the vibrational behavior of composite archery arrows, Proceedings of Acoustics (2011) Paper Number 102.

Rieckmann, M. and J.L. Park, J. Codrington, B. Cazzolato, Modelling the 3D vibration of composite archery arrows under free-free boundary conditions. Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology (2012).

Srivastava D.K, Slender Body Theory for Stokes Flow Past Axisymmetric Bodies: A Review Article. Int. J. of Appl. Math and Mech. (2012)  8 (15): 14-39.

Zanevskyy, I. P. The Archer's Paradox, Test UNGERADE Seite Fußzeile RECHTS

Zanevskyy, I. P. Lateral Deflection of Archery Arrows. Sports Engineering, 2001, 4, 23-42.

Zanevskyy, I. P. Bow Tuning in the Vertical Plane. Sports Engineering,  2006, 9, 77-86.

Zanevskyy, I.P. Modeling and Computer Simulation of Bow Stabilization in the Vertical Plan. International Journal of Sports Science and Engineering, 2008, 02:01, 03-14.

Zanevskyy I.P, Mechanical and mathematical modeling of sport archery arrow ballistics. Int. J. Comput. Sci. Sport, 2008, 7(1), 40–49.