Maarten F . Bobbert quasi - linear rather than hyperbolic ? Why is the force - velocity relationship in leg press tasks
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Why is the force-velocity relationship in leg press tasks You might find this additional info useful... those papers emphasizing adaptive and integrative mechanisms. It is published 12 times a year (monthly) by the American publishes original papers that deal with diverse areas of research in applied physiology, especially
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Why is the force-velocity relationship in leg press tasks quasi-linear rather than hyperbolic?
Force-velocity relationships reported in the literature for functional tasks involving a combination of joint rotations tend to be quasi-linear. The purpose of this study was to explain why they are not hyperbolic, like Hill's relationship. For this purpose, a leg press task was simulated with a musculoskeletal model of the human leg, which had stimulation of knee extensor muscles as only indep...
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K. Meijer and P.A. Huijing are with the Institute for Biomedical Engineering, University of Twente, Enschede, The Netherlands. P. Bosch, M.F. Bobbert, A.J. van Soest, and P.A. Huijing are with the Department of Functional Anatomy, Faculteit Bewegingswetenschappen, Vrije Universiteit, Amsterdam. Direct correspondence to Maarten F. Bobbert, Vrije Universiteit, Vakgroep Functionele Anatomie, Facul...
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