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生物力学以力学的方法来研究生物体系统的有关力学问题。力图对生物体本身许多机械运动的现象有较深的了解,而这些现象往往是相当重要而又含糊不清的。因此,几十年来,生物力学以其迷人的课题和广阔的研究领域吸引着众多的学者来探索。本世纪卅年代英国生理学家希尔(Hill)对肌肉收缩的经典力学研究使之获得诺贝尔奖就是一个杰出的范例。作为生物力学的一个分支——运动生物力学,它研究的对象是自然界最复杂的生物体——人体。并且是研究人体运动的力学规律。宏观地考察人体的运动用现有的力学理论和实验手段几乎无甚困难,微观地分析人体运动的原理与机制还了解甚微,有不少问题还没有解决,有不少现象,尚不知怎样提问题,必定还有更多的谜团等待去发现。作为运动生物力学教学,
Biomechanics Mechanics approaches the mechanics of organism systems. Trying to understand the phenomena of many mechanical motions of living organisms themselves, and these phenomena are often quite important and ambiguous. Therefore, for decades, biomechanics has attracted many scholars to explore with its fascinating topics and vast research fields. The classical mechanics of muscle contraction by British physiologist Hill in the 1930s made Nobel Prize a brilliant example. As a branch of biomechanics - sports biomechanics, it is the study of the most complex organisms in nature - the human body. And is to study the laws of human motion mechanics. Macroscopically examining the movement of the human body with the existing mechanical theory and experimental means almost no difficulty, microscopic analysis of the principle and mechanism of human movement is still very little understanding, there are many problems have not been solved, there are many phenomena, still do not know how To ask questions, there must be more mysteries waiting to be found. As a sports biomechanics teaching,