ergometry

简明释义

英[/ˌɜrˈɡɑː.mə.tri/]美[/ˌɜrˈɡɑː.mə.tri/]

n. 肌力测试；测力学；测功学

英英释义

单词用法

同义词

反义词

例句

1.Objective:To investigate the reliability of an one arm crank ergometry protocol used for exercise test for patients with hemiplegia.

目的：研究单臂功率车运动方案用于偏瘫患者心电运动试验的可行性。

2.Objective:To investigate the reliability of an one arm crank ergometry protocol used for exercise test for patients with hemiplegia.

目的：研究单臂功率车运动方案用于偏瘫患者心电运动试验的可行性。

3.The study of exercise physiology often includes techniques such as ergometry (功率测量法) to assess cardiovascular fitness.

运动生理学的研究通常包括诸如ergometry（功率测量法）等技术，以评估心血管健康。

4.In rehabilitation programs, ergometry (功率测量法) can help track a patient's progress over time.

在康复项目中，ergometry（功率测量法）可以帮助跟踪患者的进展。

5.During the fitness assessment, we used ergometry (功率测量法) to measure the maximum oxygen uptake.

在体能评估中，我们使用ergometry（功率测量法）来测量最大氧气摄取量。

6.Athletes often undergo ergometry (功率测量法) tests to optimize their training regimens.

运动员经常进行ergometry（功率测量法）测试，以优化他们的训练计划。

7.The lab specializes in ergometry (功率测量法) research to improve athletic performance.

该实验室专注于ergometry（功率测量法）研究，以提高运动表现。

作文

Ergometry is a term that refers to the measurement of work output, particularly in the context of physical exercise and performance. This concept is essential in various fields, including sports science, rehabilitation, and exercise physiology. By using different forms of ergometers, researchers and practitioners can assess an individual's physical capabilities, track progress over time, and tailor training programs to meet specific needs. The importance of ergometry (功率测量法) cannot be overstated, as it provides valuable insights into how the body responds to exercise, which can ultimately enhance athletic performance and overall health. In sports science, ergometry (功率测量法) is used to evaluate athletes' performance during training and competitions. For instance, cycling ergometers are common tools that allow for precise measurement of power output, heart rate, and oxygen consumption. This data can be analyzed to determine an athlete's strengths and weaknesses, enabling coaches to develop personalized training regimens. Furthermore, by monitoring changes in performance metrics through ergometry (功率测量法), coaches can make informed decisions about when to intensify training or when to allow for recovery. In rehabilitation settings, ergometry (功率测量法) plays a critical role in helping patients recover from injuries or surgeries. By measuring work output and endurance, healthcare professionals can design rehabilitation programs that gradually increase in intensity. This careful monitoring ensures that patients do not overexert themselves while still making progress. Additionally, the use of ergometry (功率测量法) allows for objective assessment of a patient's recovery, providing both the patient and the healthcare provider with clear benchmarks. Another significant aspect of ergometry (功率测量法) is its application in exercise physiology research. Scientists utilize ergometers to study how different variables, such as intensity, duration, and type of exercise, affect physiological responses. For example, research conducted using treadmill ergometers has provided insights into cardiovascular responses to various exercise modalities. Understanding these physiological responses can help in designing effective exercise programs for different populations, including those with chronic diseases or conditions that limit physical activity. Moreover, the advancements in technology have led to the development of more sophisticated ergometers that can measure a wider range of physiological parameters. These innovations have made ergometry (功率测量法) even more valuable in both clinical and athletic settings. For instance, some modern ergometers can integrate real-time data analysis, allowing trainers and clinicians to adjust exercise prescriptions on-the-fly based on an individual’s performance and physiological response. In conclusion, ergometry (功率测量法) is a vital tool in understanding and enhancing physical performance across various domains. Whether in sports, rehabilitation, or research, the ability to measure and analyze work output provides crucial information that can lead to improved outcomes. As we continue to explore the intricacies of human performance, ergometry (功率测量法) will undoubtedly remain at the forefront of exercise science, guiding both athletes and patients toward their goals of optimal health and performance.

功率测量法是一个术语，指的是对工作输出的测量，特别是在体育锻炼和表现的背景下。这个概念在运动科学、康复和运动生理学等多个领域中至关重要。通过使用不同形式的功率测量仪，研究人员和从业者可以评估个人的身体能力，跟踪进展，并根据特定需求量身定制训练计划。功率测量法的重要性不容忽视，因为它提供了关于身体如何响应锻炼的宝贵见解，这最终可以增强运动表现和整体健康。 在运动科学中，功率测量法用于评估运动员在训练和比赛中的表现。例如，自行车功率测量仪是常见的工具，可以精确测量功率输出、心率和氧气消耗。这些数据可以分析运动员的优缺点，使教练能够制定个性化的训练方案。此外，通过监测通过功率测量法的表现指标的变化，教练可以做出明智的决定，判断何时加大训练强度或何时允许恢复。 在康复环境中，功率测量法在帮助患者从伤害或手术中恢复方面发挥着关键作用。通过测量工作输出和耐力，医疗专业人员可以设计逐渐增加强度的康复程序。这种仔细的监测确保患者不会过度用力，同时仍在取得进展。此外，使用功率测量法还允许客观地评估患者的恢复，为患者和医疗提供者提供明确的基准。 功率测量法的另一个重要方面是其在运动生理学研究中的应用。科学家利用功率测量仪研究不同变量（如强度、持续时间和锻炼类型）如何影响生理反应。例如，使用跑步机功率测量仪进行的研究提供了关于不同锻炼方式对心血管反应的见解。理解这些生理反应可以帮助为不同人群（包括那些慢性疾病或限制身体活动的人）设计有效的锻炼程序。 此外，技术的进步导致开发出更复杂的功率测量仪，能够测量更广泛的生理参数。这些创新使得功率测量法在临床和运动环境中更具价值。例如，一些现代功率测量仪可以集成实时数据分析，使教练和临床医生能够根据个人的表现和生理反应即时调整锻炼处方。 总之，功率测量法是理解和增强各个领域身体表现的关键工具。无论是在运动、康复还是研究中，测量和分析工作输出的能力提供了关键的信息，可以导致改善结果。随着我们继续探索人类表现的复杂性，功率测量法无疑将继续处于运动科学的最前沿，引导运动员和患者朝着最佳健康和表现的目标迈进。