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Bibliographic Details
Main Author: DE ALMEIDA, REGIVALDO
Format: Recurso digital
Language:English
Published: Zenodo 2025
Subjects:
wedge mechanics stress concentration edge functional primacy minimal mass maximum action simple machines material separation convergent geometry Paleolithic technology archaeological validation mechanical engineering fracture mechanics tool evolution indispensability analysis orientation criticality action permanence cutting tool design Oldowan technology biomechanics engineering archaeology functional hierarchy
Online Access:https://doi.org/10.5281/zenodo.18110918
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Table of Contents:
  • <p>This work provides the first rigorous functional characterization of the wedge, humanity's oldest simple machine with 3.3 million years of documented use. Applying the Minimal Mass/Maximum Action Axiom to three representative wedge systems (splitting wedge, cold chisel, utility knife), we demonstrate that the convergent edge region—representing only 0.66% of total mass—performs 100% of material separation action through geometric stress concentration, achieving mass efficiency exceeding 678:1 relative to the body structure.</p> <p>Quantitative analysis reveals edge stress concentration factors averaging K_t = 22.6, with edge regions operating at 94% of material capacity while body structures maintain conservative stress levels below 30%. Complete indispensability testing (I_edge = 1.00 vs I_body = 0.22) and orientation criticality experiments confirm edge geometric specificity as fundamental requirement rather than optimization preference.</p> <p>Archaeological validation spanning from 3.3-million-year-old Lomekwian tools through contemporary carbide and diamond cutting implements demonstrates convergent technological evolution consistently prioritizing edge geometry refinement across independent cultural developments. Engineering analysis of modern precision machining, surgical instruments, and industrial metal forming reveals 80-90% of design resources concentrate on edge region optimization, validating functional primacy through revealed economic preferences.</p> <p>The wedge uniquely demonstrates action permanence—material remains separated after wedge removal without continuous force application—distinguishing it from other simple machines through permanent material modification mechanism. This systematic clarification establishes the wedge as edge-primary machine where minimal mass convergent geometry performs maximum mechanical action, confirming ancient recognition while providing quantitative foundation previously absent from mechanical engineering literature.</p>

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