Proceedings of the Fifth Biennial Conference and Human Locomotion Symposium of the Canadian Society for Biomechanics (CSB/SCB) |
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Page 4
... static and dynamic friction coefficients for different types of piqué and conditions of utilization . METHODS The experimental treatments referred to 3 types of piqué , 2 levels of wear , 2 sliding surfaces or the types of bedsheet onto ...
... static and dynamic friction coefficients for different types of piqué and conditions of utilization . METHODS The experimental treatments referred to 3 types of piqué , 2 levels of wear , 2 sliding surfaces or the types of bedsheet onto ...
Page 5
... static and dynamic conditions . Figure 1. Experimental set - up The friction coefficients and the probability levels are presented in Table 1. In both , the static and dynamic situations , the piqué Courey presented better sliding ...
... static and dynamic conditions . Figure 1. Experimental set - up The friction coefficients and the probability levels are presented in Table 1. In both , the static and dynamic situations , the piqué Courey presented better sliding ...
Page 4
... static , and eccentric strengths of elbow flexors and extensors for male and female subjects . Twenty male and 20 female subjects performed a maximal lift on an incremental lifting machine , and static and dynamic elbow strength tests ...
... static , and eccentric strengths of elbow flexors and extensors for male and female subjects . Twenty male and 20 female subjects performed a maximal lift on an incremental lifting machine , and static and dynamic elbow strength tests ...
Contents
SIMULATION | 34 |
Lemaire E D and Robertson D G | 8 |
METATARSAL HEAD DURING PUSIIOFF | |
Copyright | |
3 other sections not shown
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acceleration activity analysis angle angular ankle average Biomechanics body calculated changes compared component contraction curves cycle determined direction DISCUSSION dynamic effect elbow energy error estimate et al evaluation Figure flexion flexor foot force function gait greater heel human increase indicate individual INTRODUCTION joint kinematic knee lateral length lifting limb load lower markers mass maximal maximum McGill University mean measured mechanical method moment moments motion movement muscle normal observed obtained occurred parameters patients patterns peak performed phase position predicted presented produced range reaction forces recorded References relation relative reported represent respectively rotation running segment shoe shown shows significant similar simulation single speed stance strength stride subjects suggest swing Table task techniques torque trials trunk University values variables velocity vertical walking weight