The influence of flywheel weight and pedalling frequency on the biomechanics and physiological responses to bicycle exercise#x2020;

ROBERTP. PATTERSON; JERIL. PEARSON; STEVENV. FISHER

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The influence of flywheel weight and pedalling frequency on the biomechanics and physiological responses to bicycle exercise#x2020;

机译：The influence of flywheel weight and pedalling frequency on the biomechanics and physiological responses to bicycle exercise#x2020;

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The physiological, subjective and biomechanical effects of altering flywheel weight and pedalling rate on a Quinton Model 870 bicycle ergometer were studied. Steel plates were added to the flywheel to increase its weight to 35#xB7;9#xA0;kg with a moment of inertia of 1#xB7;65#xA0;kg m2. A 1#xB7;5#xA0;kg spoked wheel with a moment of inertia of 0#xB7;1#xA0;kg m2was used as the light flywheel. Eight subjects pedalled on two separate occasions for 6 min at 40, 50, 60, 70, 80 and 90 r.p.m. with workload levels representing 30 and 60 of their VdotO2max with each flywheel. Force plate pedals were used to measure the total resultant force on the pedals (FR) and the component perpendicular to the crank arm (FT). A force effectiveness index (FEI) was denned as the average of FT/FRover a crank cycle. The result showed no statistically significant change (p0#xB7;05) in VdotO2, heart rate and rating of perceived exertion of the FEI as a function of flywheel weight except for the VdotO2at 50 r.p.m. for the light workload. As the r.p.m. increased from 40 to 90 r.p.m., the FEI decreased from 0#xB7;5 to 0#xB7;35 with the heavy load and from 0#xB7;36 to 0#xB7;22 with the light load. Measured physiological, subjective and biomechanical indices did not change significantly with flywheel weight. Increasing the pedalling rate caused a significantly less effective application of forces to the crank arm with only a small change in VdotO2.

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《ergonomics》 |1983年第7期|659-668|共页
作者
ROBERTP. PATTERSON; JERIL. PEARSON; STEVENV. FISHER;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《化学文摘》(CA);
原文格式 PDF
正文语种英语
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关键词
Pedalling rate; Pedal forces; Bicycle; Flywheel weight; Efficiency of work; Oxygen uptake; Rating of perceived exertion; Force effectiveness index;

The influence of flywheel weight and pedalling frequency on the biomechanics and physiological responses to bicycle exercise#x2020;

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