.1123/jab.29.6.810 A Computational Fluid Dynamics Study of Propulsion Due to the Orientation Effects of Swimmer’s Hand Milda Bilinauskaite * Vishveshwar R. Mantha * Abel I. Rouboa * Pranas Ziliukas * António J. Silva * 12 2013 29 6 817 823 10.1123/jab.29.6.817 The Development of a Custom
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Shona L. Halson and David T. Martin
like special effects studios could be relevant and inspiring. In many special effects studios, a relatively large collection of PhDs in specialties such as computational fluid dynamics, computer vision, astrophysics, and mathematics work together adhering to strict timelines under the leadership of the
Luke Hogarth, Brendan Burkett, Peter Van de Vliet, and Carl Payton
. The measurement of propulsive forces during free swimming is complex due to the aquatic environment. Computational fluid dynamics has been used to estimate many previously immeasurable quantities explaining the forces experienced by the body during swimming. 3 , 4 These models require accurate
Ricardo Ribeiro Agostinete, Santiago Maillane-Vanegas, Kyle R. Lynch, Bruna Turi-Lynch, Manuel J. Coelho-e-Silva, Eduardo Zapaterra Campos, Suziane Ungari Cayres, and Romulo Araújo Fernandes
young adults . BMC Musculoskelet Disord . 2013 ; 14 ( 1 ): 77 . doi:10.1186/1471-2474-14-77 10.1186/1471-2474-14-77 23497066 6. Bixler B , Riewald S . Analysis of a swimmer’s hand and arm in steady flow conditions using computational fluid dynamics . J Biomech . 2002 ; 35 ( 5 ): 713 – 7
Levi Heimans, Wouter R. Dijkshoorn, Marco J.M. Hoozemans, and Jos J. de Koning
identical and will differ in aerodynamic characteristics, the reduction in power is likely to vary among individuals. Using computational fluid dynamics (CFD), Defreaye et al 10 demonstrated the relevant effect of cyclists’ posture and size in a team pursuit. The drafting effects were compared for 4
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