dynamometric

简明释义

英[ˌdaɪnəˈmɒtrɪk]美[ˌdaɪnəˈmɑːtrɪk]

adj. 测力的

英英释义

单词用法

同义词

反义词

例句

1.High precision sodium pressure transducer using the dynamometric annulus as the Sensor is developed.

本文研究了一种以测力环为敏感元件的高精度钠压力传感器。

2.High precision sodium pressure transducer using the dynamometric annulus as the Sensor is developed.

本文研究了一种以测力环为敏感元件的高精度钠压力传感器。

3.The engineers used a dynamometric 测力的 tool to measure the force applied during the test.

工程师们使用了一种dynamometric测力的工具来测量测试过程中施加的力量。

4.In the laboratory, we calibrated the dynamometric 测力的 scale to ensure accurate readings.

在实验室，我们校准了dynamometric测力的秤，以确保读数准确。

5.The dynamometric 测力的 apparatus was essential for our physics experiment on friction.

该dynamometric测力的设备对我们进行摩擦的物理实验至关重要。

6.They installed a dynamometric 测力的 sensor in the machinery to monitor performance.

他们在机器中安装了一个dynamometric测力的传感器以监控性能。

7.The dynamometric 测力的 testing provided valuable data for the structural analysis.

该dynamometric测力的测试为结构分析提供了宝贵的数据。

作文

In the field of engineering and physics, precision is paramount. One of the essential tools used to measure forces, particularly in mechanical systems, is a device known as a dynamometer. A dynamometer can be described as a tool that measures power, torque, or force. When we refer to something as dynamometric, we are specifically discussing its relation to the measurement of these forces. The term dynamometric comes from the Greek word 'dynamis', which means power or force, and 'metric', which relates to measurement. Thus, dynamometric devices are crucial in various applications, from automotive testing to physical therapy. For instance, in the automotive industry, engineers use dynamometric testing to ensure that engines perform at their optimal levels. By measuring torque and power output, they can make necessary adjustments to improve performance and efficiency. This process is not only vital for the development of new vehicles but also for maintaining existing ones. Mechanics often employ dynamometric tools to ensure that components are tightened to the correct specifications, preventing potential failures during operation. Moreover, in the realm of physical therapy, dynamometric devices play a critical role in rehabilitation. Therapists use these tools to assess the strength of a patient's muscles and monitor progress over time. By quantifying the force exerted by a muscle, therapists can tailor rehabilitation programs to meet individual needs, ensuring that patients regain strength effectively and safely. The ability to measure force accurately allows for a more scientific approach to recovery, leading to better outcomes for patients. Additionally, the application of dynamometric principles extends into sports science. Coaches and trainers utilize dynamometric measurements to analyze athletes' performance and develop training regimens that enhance strength and power. For example, by assessing the force produced during specific movements, trainers can determine areas of improvement and track progress, ultimately leading to enhanced athletic performance. In conclusion, the significance of dynamometric tools cannot be overstated. They serve as vital instruments in various fields, enabling professionals to measure and analyze forces with precision. Whether in automotive engineering, physical therapy, or sports science, dynamometric measurements provide essential data that drive improvements and innovations. As technology advances, we can expect even more sophisticated dynamometric devices to emerge, further enhancing our ability to measure and understand the forces that govern our world. The integration of dynamometric methodologies into different disciplines exemplifies the importance of accurate measurement in achieving excellence and efficiency across various domains.

在工程和物理领域，精确性至关重要。用于测量力的基本工具之一，特别是在机械系统中，是一种称为测功机的设备。测功机可以被描述为一种测量功率、扭矩或力的工具。当我们提到某物是dynamometric时，我们具体讨论的是它与这些力的测量有关。术语dynamometric源自希腊词'dynamis'，意为力量或动力，以及'metric'，与测量相关。因此，dynamometric设备在各种应用中至关重要，从汽车测试到物理治疗。 例如，在汽车工业中，工程师使用dynamometric测试来确保发动机在最佳水平下运行。通过测量扭矩和功率输出，他们可以进行必要的调整，以提高性能和效率。这个过程不仅对新车辆的开发至关重要，也对维护现有车辆至关重要。机械师通常使用dynamometric工具来确保组件紧固到正确的规格，防止在操作过程中可能发生的故障。 此外，在物理治疗领域，dynamometric设备在康复中发挥着关键作用。治疗师使用这些工具来评估患者肌肉的力量，并监测随时间的进展。通过量化肌肉施加的力量，治疗师可以量身定制康复计划，以满足个体需求，确保患者有效且安全地恢复力量。准确测量力量的能力使得更科学的恢复方法成为可能，从而为患者带来更好的结果。 此外，dynamometric原理的应用扩展到运动科学。教练和训练员利用dynamometric测量来分析运动员的表现，并制定增强力量和动力的训练方案。例如，通过评估特定动作中产生的力量，训练员可以确定改进的领域并跟踪进展，最终提升运动员的表现。 总之，dynamometric工具的重要性不容小觑。它们作为各种领域的关键仪器，使专业人员能够精确地测量和分析力量。无论是在汽车工程、物理治疗还是运动科学中，dynamometric测量提供了推动改进和创新的基本数据。随着技术的进步，我们可以期待出现更复杂的dynamometric设备，进一步增强我们测量和理解支配我们世界的力量的能力。将dynamometric方法整合到不同学科中的做法，体现了在各个领域实现卓越和效率所需的精确测量的重要性。