Beveled Projectile Points and Ballistics Technology

Beveled Projectile Points and Ballistics Technology

Explanations for beveled blade edges on projectile points have been debated in North America archaeology since the first systematic description oflithic assemblages in the nineteenth century. Debate has centered around two opposing perspectives. One views beveled edges as features of projectile poin...

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Veröffentlicht in:American antiquity 2012-10, Vol.77 (4), p.774-788
Hauptverfasser: Lipo, Carl P., Dunnell, Robert C., O’Brien, Michael J., Harper, Veronica, Dudgeon, John
Format: Artikel
Sprache:eng
Schlagworte:
America and Arctic regions
Archaeology
Arrows
Ballistics
Charge flow devices
Flight paths
Fluid dynamics
Lithic industry
Mass
Methodology and general studies
Modeling
North America
Paleoanthropology
Prehistory and protohistory
Projectiles
Rotation
Simulation
Torque
Typology, technology and attribute analysis
Wind tunnels
Wind velocity
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Beschreibung
Zusammenfassung:Explanations for beveled blade edges on projectile points have been debated in North America archaeology since the first systematic description oflithic assemblages in the nineteenth century. Debate has centered around two opposing perspectives. One views beveled edges as features of projectile points that cause them to spin during flight. The other views beveling as a product of edge resharpening that is done unifacially to conserve scarce resources. Here we use a fluid-dynamics model to simulate the effect beveling has on projectiles. Expectations derived from this modeling are evaluated using windtunnel experiments. Our findings indicate that beveling produces in-flight rotation that serves as a means of increasing accuracy in relatively low-velocity flight paths.
ISSN:0002-7316
2325-5064
DOI:10.7183/0002-7316.77.4.774