Biomechanics: Difference between revisions
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'''Biomechanics''' is a subfield of [[mechanics]] concerned with the study of mechanical forces acting at any of the hierarchical levels within or upon living organisms (or possibly groups thereof), though it blends over into [[thermodynamics]] at the molecular level, where [[static]] and [[dynamic]] descriptions of the action of forces meet. Direct effects on the environment due to such movements (e.g. the movement of water due to a fish [[swimming]] in it) also fall into the scope of this discipline, as do processes like [[gliding]] or [[floating]] organisms, or [[flow]] within or along organisms. | |||
The more static examples include the balance -- also known as [[tensegrity]] -- of [[tension]] and [[compression]] of [[skeleton]]s, be they [[cytoskeletons]], [[endoskeleton|endo]]- or [[exoskeleton]]s. Dynamic examples include the movements (active or passive) of | |||
*[[chromosome]]s during [[cell division]], | |||
*[[sperm]]s or [[seed]]s on their way to fertilization, | |||
*[[cell differentiation|differentiating cells]] along the [[extracellular matrix]] during [[embryonic development]], | |||
*[[muscle]]s during [[locomotion]], [[breathing]], [[digestion]] or [[heartbeat]]s, or | |||
*[[swarm]]s of moving animals.[[Category:Suggestion Bot Tag]] | |||
Latest revision as of 07:00, 19 July 2024
Biomechanics is a subfield of mechanics concerned with the study of mechanical forces acting at any of the hierarchical levels within or upon living organisms (or possibly groups thereof), though it blends over into thermodynamics at the molecular level, where static and dynamic descriptions of the action of forces meet. Direct effects on the environment due to such movements (e.g. the movement of water due to a fish swimming in it) also fall into the scope of this discipline, as do processes like gliding or floating organisms, or flow within or along organisms.
The more static examples include the balance -- also known as tensegrity -- of tension and compression of skeletons, be they cytoskeletons, endo- or exoskeletons. Dynamic examples include the movements (active or passive) of
- chromosomes during cell division,
- sperms or seeds on their way to fertilization,
- differentiating cells along the extracellular matrix during embryonic development,
- muscles during locomotion, breathing, digestion or heartbeats, or
- swarms of moving animals.