https://wiki.devclub.in/index.php?action=history&feed=atom&title=BML770 2026-04-09T05:43:45Z Revision history for this page on the wiki MediaWiki 1.45.1 https://wiki.devclub.in/index.php?title=BML770&diff=2163&oldid=prev 2026-03-04T10:21:51Z

<p>Creating course page via bot</p> <p><b>New page</b></p><div>{{Infobox Course<br /> | code = BML770<br /> | name = Fundamentals of Biomechanics<br /> | credits = 3<br /> | credit_structure = 3-0-0<br /> | pre_requisites = <br /> | overlaps = <br /> }}<br /> <br /> == BML770 : Fundamentals of Biomechanics ==<br /> Overview and significance or biomechanics to lead a better life, challenges and opportunities, inventions/research. Orthopaedic components - bones, tendons, ligaments and cartilages -primary functions, material constituents (osteoclasts, osetoblasts, collagen, collagen fibrils), mechanical strength, building vs recuperation rate, force analysis. Cardiovascular components-arteries, veins, primary functions &amp; flowrate, material constituents, mechanical strength, inflammation, life span vs. recuperation rate, force analysis. Biomaterials - Metals/alloys, polymers, ceramics, shape-memory alloys, composites and functionally graded materials. Basic Principles - Force-Motion, Force-Time, Inertia, Range of Motion, Segmental Interaction, Balance, Cordination continuum, Projection &amp; Spin. Force analysis of Joints at various kinetic states - Spine (running, climbing, stairs, running downhill etc), Knee (squatting, jumping, climbing stairs, kickingsoccer), shoulder (abduction, adduction, bowling, smashing - racquet sports), Elbow (tennis, golf) and Hip (during fall, running). Demonstrations - Characterization, fractures &amp; ruptures, non-invasive analysis (MRI, CT scan).</div>

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