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R R Neptune

Showing results (11-20 of 41) with videos related to

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Journal of Biomechanics|April 23, 1999
A theoretical analysis of preferred pedaling rate selection in endurance cyclingR R Neptune, M L Hull
Journal of Biomechanics|June 30, 1998
Standard mechanical energy analyses do not correlate with muscle work in cyclingR R Neptune, A J van den Bogert
Journal of Biomechanics|March 3, 2009
Modulation of leg muscle function in response to altered demand for body support and forward propulsion during walkingC P McGowan, R Kram, R R Neptune
Journal of Applied Physiology (Bethesda, Md. : 1985)|June 17, 2008
Independent effects of weight and mass on plantar flexor activity during walking: implications for their contributions to body support and forward propulsionC P McGowan, R R Neptune, R Kram
Journal of Biomechanics|August 25, 1999
The influence of pedaling rate on bilateral asymmetry in cyclingW Smak, R R Neptune, M L Hull
Journal of Biomechanics|November 27, 2012
A phenomenological muscle model to assess history dependent effects in human movementC P McGowan, R R Neptune, W Herzog
Journal of Neurophysiology|February 3, 2006
Does unilateral pedaling activate a rhythmic locomotor pattern in the nonpedaling leg in post-stroke hemiparesis?S A Kautz, C Patten, R R Neptune
Gait & Posture|March 12, 2004
Muscle force redistributes segmental power for body progression during walkingR R Neptune, F E Zajac, S A Kautz
Journal of Biomechanics|May 1, 1997
Pedal and knee loads using a multi-degree-of-freedom pedal platform in cyclingT F Boyd, R R Neptune, M L Hull
Motor Control|February 17, 2000
General coordination principles elucidated by forward dynamics: minimum fatique does not explain muscle excitation in dynamic tasksS A Kautz, R R Neptune, F E Zajac
Pageof 5

Showing results (11-20 of 41) with videos related to

Sort By:
Pageof 5
Journal of Biomechanics|April 23, 1999
A theoretical analysis of preferred pedaling rate selection in endurance cyclingR R Neptune, M L Hull
Journal of Biomechanics|June 30, 1998
Standard mechanical energy analyses do not correlate with muscle work in cyclingR R Neptune, A J van den Bogert
Journal of Biomechanics|March 3, 2009
Modulation of leg muscle function in response to altered demand for body support and forward propulsion during walkingC P McGowan, R Kram, R R Neptune
Journal of Applied Physiology (Bethesda, Md. : 1985)|June 17, 2008
Independent effects of weight and mass on plantar flexor activity during walking: implications for their contributions to body support and forward propulsionC P McGowan, R R Neptune, R Kram
Journal of Biomechanics|August 25, 1999
The influence of pedaling rate on bilateral asymmetry in cyclingW Smak, R R Neptune, M L Hull
Journal of Biomechanics|November 27, 2012
A phenomenological muscle model to assess history dependent effects in human movementC P McGowan, R R Neptune, W Herzog
Journal of Neurophysiology|February 3, 2006
Does unilateral pedaling activate a rhythmic locomotor pattern in the nonpedaling leg in post-stroke hemiparesis?S A Kautz, C Patten, R R Neptune
Gait & Posture|March 12, 2004
Muscle force redistributes segmental power for body progression during walkingR R Neptune, F E Zajac, S A Kautz
Journal of Biomechanics|May 1, 1997
Pedal and knee loads using a multi-degree-of-freedom pedal platform in cyclingT F Boyd, R R Neptune, M L Hull
Motor Control|February 17, 2000
General coordination principles elucidated by forward dynamics: minimum fatique does not explain muscle excitation in dynamic tasksS A Kautz, R R Neptune, F E Zajac
Pageof 5