biomechanically

简明释义

英[ˌbaɪəʊˈmɛkənɪkli]美[ˌbaɪoʊˈmɛkənɪkli]

生物力学上

英英释义

单词用法

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反义词

例句

1.Objectives. To evaluate whether the additional effort required to perform multilevel discectomies instead of corpectomies is worthwhile biomechanically.

目的：从生物力学上评价，是否值得对多节段椎间盘切除术而不是椎体切除术进行额外的处理。

2.Objective: To evaluate biomechanically and clinically the posterior STB thoracolumbar transpedicular screw-plate system.

目的对STB胸腰椎后路椎弓根钉板系统进行生物力学评价及临床应用观察。

3.Conclusions: New biomechanically competent meniscus-like tissue forms after placement of a collagen meniscus implant, and use of the implant appears safe.

结论：移植胶原半月板移植物后，具有不同生物力学性质的半月板样活性组织形成，且使用这种移植物是安全的。

4.The top group of athletes has on average much less injuries then the racers at lower level, mostly due to more biomechanically sound technique.

顶级选手的平均受伤概率远小于二流选手，因为他们采用了更符合生物力学的技术。

5.Recommended for biomechanically efficient runners who want a fast-paced training or racing shoe.

推荐给较优秀的需要一双快速的训练或比赛用鞋的跑步者。

6.By the high -speed photography and digital processing , the authors biomechanically analyze the movement of Thomas flank circle with wide arms support between two rings on pommelled horse.

采用高速摄影和数字化处理的研究方法，对鞍马“隔两环宽臂支撑托马斯全旋”动作进行生物力学分析。

7.The coach explained how to perform the jump biomechanically correct to avoid injuries.

教练解释了如何以生物力学的方式正确地进行跳跃，以避免受伤。

8.Understanding biomechanically how the body moves can improve athletic performance.

理解身体如何以生物力学的方式运动可以提高运动表现。

9.In sports science, analyzing movements biomechanically helps in optimizing techniques.

在运动科学中，以生物力学的方式分析动作有助于优化技术。

10.The therapist assessed the patient biomechanically to create a tailored rehabilitation plan.

治疗师以生物力学的方式评估患者，以制定量身定制的康复计划。

11.The new running shoes were designed biomechanically to enhance comfort and performance.

新款跑鞋是以生物力学的方式设计的，以增强舒适度和性能。

作文

In the field of sports science, understanding human movement is essential for enhancing performance and preventing injuries. One crucial aspect of this understanding is examining how our bodies function biomechanically (生物力学地). By analyzing movements through a biomechanical lens, we can gain insights into the mechanical principles that govern our physical actions. This involves studying the forces exerted by muscles and gravity, as well as the resulting movements of bones and joints. For instance, when a sprinter takes off from the starting blocks, their body undergoes a series of complex movements that can be analyzed biomechanically (生物力学地). The angle of their foot placement, the force applied to the ground, and the timing of their arm swings all play a critical role in determining how quickly they accelerate. Coaches and trainers can use this information to optimize an athlete's technique, ensuring they are moving in the most efficient way possible. Moreover, biomechanical (生物力学的) analysis is not limited to elite athletes. It is equally important for individuals recovering from injuries or those looking to improve their everyday movements. For example, when rehabilitating a knee injury, therapists often assess how a patient walks biomechanically (生物力学地) to identify any irregularities that may hinder recovery. By understanding the specific forces at play, they can design personalized rehabilitation programs that target weak areas and help restore proper movement patterns.In addition to performance enhancement and rehabilitation, biomechanical (生物力学的) principles are also applied in the development of sports equipment. Engineers and designers work closely with sports scientists to create shoes, bicycles, and other gear that optimize human movement. For example, running shoes are designed with cushioning and support systems that align with the biomechanical (生物力学的) needs of runners, reducing the risk of injury and improving overall performance. Furthermore, the implications of biomechanical (生物力学的) studies extend beyond sports. In fields like ergonomics, understanding how people interact with their environments biomechanically (生物力学地) can lead to better workplace designs that minimize strain and enhance productivity. Office chairs, desks, and tools can be optimized based on how the human body moves and functions, leading to healthier and more efficient workspaces. In conclusion, the study of human movement biomechanically (生物力学地) is a vital area of research that impacts various aspects of life, from sports performance to rehabilitation and ergonomics. By applying biomechanical (生物力学的) principles, we can improve our understanding of movement, enhance athletic performance, aid in recovery from injuries, and create better designs for our daily lives. As we continue to explore this fascinating field, the potential for innovation and improvement in health and performance remains vast.

在体育科学领域，理解人类运动对于提高表现和预防受伤至关重要。理解这一点的一个关键方面是检查我们的身体如何<生物力学地>（biomechanically）运作。通过从<生物力学>（biomechanical）的角度分析运动，我们可以深入了解支配我们身体动作的机械原理。这涉及到研究肌肉和重力施加的力量，以及骨骼和关节的运动结果。例如，当一名短跑运动员从起跑器起跑时，他们的身体经历一系列复杂的运动，可以<生物力学地>（biomechanically）进行分析。他们的脚放置角度、施加在地面上的力量以及手臂摆动的时机都在决定他们加速的速度中扮演着关键角色。教练和训练师可以利用这些信息来优化运动员的技术，确保他们以最有效的方式运动。此外，<生物力学>（biomechanical）的分析并不限于精英运动员。它对恢复受伤的人或那些希望改善日常运动的人同样重要。例如，在膝盖受伤的康复过程中，治疗师通常会<生物力学地>（biomechanically）评估患者的走路方式，以识别可能妨碍恢复的任何不规则现象。通过理解具体的作用力，他们可以设计个性化的康复程序，针对弱点并帮助恢复正常的运动模式。除了提高表现和康复外，<生物力学>（biomechanical）原理还应用于运动设备的开发。工程师和设计师与运动科学家密切合作，创造出优化人类运动的鞋子、自行车和其他装备。例如，跑鞋的设计考虑了缓冲和支持系统，这些系统与跑者的<生物力学>（biomechanical）需求相匹配，从而减少受伤风险并改善整体表现。此外，<生物力学>（biomechanical）研究的影响不仅限于运动。在人体工学等领域，理解人们如何<生物力学地>（biomechanically）与环境互动，可以导致更好的工作场所设计，减少压力并提高生产力。办公室椅子、桌子和工具可以根据人类身体的运动和功能进行优化，从而创造出更健康、更高效的工作空间。总之，<生物力学地>（biomechanically）研究人类运动是一个重要的研究领域，影响着生活的各个方面，从运动表现到康复再到人体工学。通过应用<生物力学>（biomechanical）原理，我们可以改善对运动的理解，提高运动表现，帮助从伤病中恢复，并为我们的日常生活创造更好的设计。随着我们继续探索这一迷人的领域，健康和表现改善的潜力依然广阔。