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20.310J Molecular, Cellular, and Tissue Biomechanics (MIT) 20.310J Molecular, Cellular, and Tissue Biomechanics (MIT)

Description

This course develops and applies scaling laws and the methods of continuum and statistical mechanics to biomechanical phenomena over a range of length scales, from molecular to cellular to tissue or organ level. This course develops and applies scaling laws and the methods of continuum and statistical mechanics to biomechanical phenomena over a range of length scales, from molecular to cellular to tissue or organ level.

Subjects

biomechanics | biomechanics | molecular mechanics | molecular mechanics | cell mechanics | cell mechanics | Brownian motion | Brownian motion | Reynolds numbers | Reynolds numbers | mechanochemistry | mechanochemistry | Kramers' model | Kramers' model | Bell model | Bell model | viscoelasticity | viscoelasticity | poroelasticity | poroelasticity | optical tweezers | optical tweezers | extracellular matrix | extracellular matrix | collagen | collagen | proteoglycan | proteoglycan | cell membrane | cell membrane | cell motility | cell motility | mechanotransduction | mechanotransduction | cancer | cancer | biological systems | biological systems | molecular biology | molecular biology | cell biology | cell biology | cytoskeleton | cytoskeleton | cell | cell | biophysics | biophysics | cell migration | cell migration | biomembrane | biomembrane | tissue mechanics | tissue mechanics | rheology | rheology | polymer | polymer | length scale | length scale | muscle mechanics | muscle mechanics | experimental methods | experimental methods

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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20.310J Molecular, Cellular, and Tissue Biomechanics (MIT)

Description

This course develops and applies scaling laws and the methods of continuum and statistical mechanics to biomechanical phenomena over a range of length scales, from molecular to cellular to tissue or organ level.

Subjects

biomechanics | molecular mechanics | cell mechanics | Brownian motion | Reynolds numbers | mechanochemistry | Kramers' model | Bell model | viscoelasticity | poroelasticity | optical tweezers | extracellular matrix | collagen | proteoglycan | cell membrane | cell motility | mechanotransduction | cancer | biological systems | molecular biology | cell biology | cytoskeleton | cell | biophysics | cell migration | biomembrane | tissue mechanics | rheology | polymer | length scale | muscle mechanics | experimental methods

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

Site sourced from

https://ocw.mit.edu/rss/all/mit-allcourses.xml

Attribution

Click to get HTML | Click to get attribution | Click to get URL

All metadata

See all metadata