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• LDR

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• 001

  000001364841

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  cr |||||||||||

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  090713t20202021maua ob 001 0 engd

• 010

  ▼a  2019050152

• 020

  ▼a  9780262359191
  ▼q  (electronic book)

• 020

  ▼a  0262359197
  ▼q  (electronic book)

• 020

  ▼z  9780262044202
  ▼q  (hardcover)

• 020

  ▼z  026204420X
  ▼q  (hardcover)

• 035

  ▼a  2371099
  ▼b  (N$T)

• 035

  ▼a  (OCoLC)1162546077

• 040

  ▼a  RECBK
  ▼b  eng
  ▼c  RECBK
  ▼d  OCLCO
  ▼d  N$T
  ▼d  OCLCO
  ▼d  OCLCF
  ▼d  EBLCP
  ▼d  248023
  ▼d  GZM
  ▼d  OCLCO
  ▼d  CNO
  ▼d  CASUM
  ▼d  OCLCO
  ▼d  IBI
  ▼e  pn
  ▼e  rda

• 049

  ▼a  MAIN

• 050

  ▼a  QP303
  ▼b  .D45 2021eb

• 082

  ▼a  612.2/1
  ▼2  23

• 100

  ▼a  Uchida, Thomas K.,
  ▼e  author.

• 245

  ▼a  Biomechanics of movement:
  ▼b  the science of sports, robotics, and rehabilitation /
  ▼c  Thomas K. Uchida and Scott L. Delp ; illustrations by David Delp.

• 260

  ▼a  Cambridge, Massachusetts:
  ▼b  The MIT Press,
  ▼c  [2020].

• 300

  ▼a  1 online resource (xix, 374 pages):
  ▼b  color illustrations, color map.

• 336

  ▼a  text
  ▼b  txt
  ▼2  rdacontent

• 337

  ▼a  computer
  ▼b  c
  ▼2  rdamedia

• 338

  ▼a  online resource
  ▼b  cr
  ▼2  rdacarrier

• 504

  ▼a  Includes bibliographical references (pages 353-362) and index.

• 505

  ▼a  First steps -- Walking -- Running -- Muscle biology and force -- Muscle architecture and dynamics -- Musculoskeletal geometry -- Quantifying movement -- Inverse dynamics -- Muscle force optimization -- Muscle-driven simulation -- Muscle-driven walking -- Muscle-driven running -- Moving forward.

• 520

  ▼a  An engaging introduction to human and animal movement seen through the lens of mechanics. How do Olympic sprinters run so fast' Why do astronauts adopt a bounding gait on the moon' How do running shoes improve performance while preventing injuries' This engaging and generously illustrated book answers these questions by examining human and animal movement through the lens of mechanics. The authors present simple conceptual models to study walking and running and apply mechanical principles to a range of interesting examples. They explore the biology of how movement is produced, examining the structure of a muscle down to its microscopic force-generating motors. Drawing on their deep expertise, the authors describe how to create simulations that provide insight into muscle coordination during walking and running, suggest treatments to improve function following injury, and help design devices that enhance human performance.

• 588

  ▼a  Title from resource description page (Recorded Books, viewed June 29, 2020).

• 590

  ▼a  Master record variable field(s) change: 050

• 650

  ▼a  Human mechanics.

• 650

  ▼a  Biomechanics.

• 650

  ▼a  Science.

• 650

  ▼a  Biomechanical Phenomena.

• 650

  ▼a  Movement.

• 650

  ▼a  Humans.

• 650

  ▼a  SCIENCE / Life Sciences / Neuroscience.
  ▼2  bisacsh

• 650

  ▼a  Science.
  ▼2  fast
  ▼0  (OCoLC)fst01108176

• 655

  ▼a  Electronic books.

• 655

  ▼a  Electronic books.

• 700

  ▼a  Delp, Scott,
  ▼e  author.

• 700

  ▼a  Delp, David,
  ▼e  illustrator.

• 852

  ▼a  NA000000
  ▼b  00000140

• 856

  ▼3  EBSCOhost
  ▼u  https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&db=nlabk&AN=2371099

• 938

  ▼a  ProQuest Ebook Central
  ▼b  EBLB
  ▼n  EBL6434343

• 938

  ▼a  Recorded Books, LLC
  ▼b  RECE
  ▼n  rbeEB00811239

• 938

  ▼a  EBSCOhost
  ▼b  EBSC
  ▼n  2371099

• 990

  ▼a  최영란

• 991

  ▼a  eBook

• 994

  ▼a  92
  ▼b  N$T