tachometry

简明释义

英[təˈkɑːmətri]美[təˈkɑːmətri]

n. 流速测定；转速测定

英英释义

单词用法

同义词

反义词

例句

1.There is a contradiction between the detect time and precision in tachometry of vehicle motor.

在对车辆发动机转速的测量过程中，存在着测量时间与测量精度的矛盾。

2.There is a contradiction between the detect time and precision in tachometry of vehicle motor.

在对车辆发动机转速的测量过程中，存在着测量时间与测量精度的矛盾。

3.In aerospace applications, tachometry is crucial for monitoring engine performance.

在航空航天应用中，速测法对于监测发动机性能至关重要。

4.The research team applied tachometry techniques to assess the efficiency of various propulsion systems.

研究小组应用速测法技术评估各种推进系统的效率。

5.Using tachometry, scientists were able to gather data on the speeds of different animal species.

通过使用速测法，科学家能够收集不同动物物种的速度数据。

6.The engineer used tachometry to measure the speed of the rotating machinery.

工程师使用速测法来测量旋转机械的速度。

7.The automotive industry relies on tachometry for testing vehicle acceleration.

汽车行业依赖速测法来测试车辆加速性能。

作文

Tachometry, a term derived from the Greek words 'tachos' meaning speed and 'metron' meaning measure, refers to the science of measuring the speed of objects, particularly in the context of surveying and geodesy. The importance of tachometry cannot be overstated, especially in fields such as engineering, construction, and environmental studies. By employing various techniques, professionals can accurately determine distances and speeds, which are crucial for planning and executing projects effectively.In the realm of engineering, tachometry plays a vital role in ensuring that structures are built with precision. For example, when constructing bridges or tunnels, engineers must take into account the speed at which materials will be transported and the time it will take to complete each phase of the project. Utilizing tachometry allows them to gather data on the movement of materials and workers, optimizing workflow and minimizing delays.Moreover, in the field of construction, tachometry is essential for site surveys. Surveyors use this technique to measure land, assess topographical features, and create accurate maps. This information is critical for determining property boundaries and planning new developments. Without the precise measurements provided by tachometry, construction projects could face significant setbacks due to miscalculations or unforeseen obstacles.Environmental studies also benefit from tachometry. Researchers often need to measure the speed of natural phenomena, such as water flow in rivers or the movement of glaciers. These measurements help scientists understand environmental changes and predict future trends. For instance, by analyzing the speed of glacial retreat, researchers can gain insights into climate change and its impact on ecosystems.Furthermore, tachometry has applications beyond traditional surveying and engineering. In the automotive industry, for instance, understanding the speed of vehicles is crucial for safety and performance. Engineers conduct tests to measure acceleration and braking speeds, ensuring that cars meet safety standards. Similarly, in sports, coaches and athletes utilize tachometry to analyze performance metrics, striving for improvement in speed and efficiency.As technology continues to advance, the methods used in tachometry are becoming increasingly sophisticated. Modern tools such as laser rangefinders and GPS technology enable more accurate and efficient measurements than ever before. These innovations not only enhance the precision of data collected but also streamline the process, saving time and resources.In conclusion, tachometry is a fundamental aspect of various fields, providing essential data for decision-making and project execution. Its applications in engineering, construction, environmental studies, and even sports underscore its versatility and importance. As we continue to develop new technologies, the role of tachometry will undoubtedly expand, leading to even greater advancements in measurement techniques and their applications in our daily lives.

速测法，这个术语源于希腊语单词 'tachos' 意为速度，'metron' 意为测量，是指测量物体速度的科学，特别是在测量和大地测量的背景下。速测法的重要性不容小觑，尤其是在工程、建筑和环境研究等领域。通过采用各种技术，专业人员可以准确地确定距离和速度，这对于有效规划和执行项目至关重要。在工程领域，速测法在确保结构精确建造方面发挥着重要作用。例如，在建造桥梁或隧道时，工程师必须考虑材料运输的速度以及完成每个阶段所需的时间。利用速测法，他们可以收集有关材料和工人移动的数据，从而优化工作流程，减少延误。此外，在建筑领域，速测法对于现场勘测至关重要。测量师使用这种技术来测量土地、评估地形特征并创建准确的地图。这些信息对确定财产边界和规划新开发项目至关重要。如果没有速测法提供的精确测量，建筑项目可能会因计算错误或意外障碍而面临重大延误。环境研究也受益于速测法。研究人员经常需要测量自然现象的速度，例如河流中的水流或冰川的移动。这些测量帮助科学家理解环境变化并预测未来趋势。例如，通过分析冰川退缩的速度，研究人员可以获得气候变化及其对生态系统影响的见解。此外，速测法的应用超出了传统的测量和工程。在汽车行业，了解车辆的速度对于安全和性能至关重要。工程师进行测试以测量加速和制动速度，确保汽车符合安全标准。同样，在体育中，教练和运动员利用速测法分析表现指标，力求提高速度和效率。随着技术的不断进步，速测法中使用的方法变得越来越复杂。现代工具如激光测距仪和GPS技术使得比以往更准确和高效的测量成为可能。这些创新不仅提高了数据收集的精确度，还简化了过程，节省了时间和资源。总之，速测法是各个领域的基本组成部分，为决策和项目执行提供了必要的数据。它在工程、建筑、环境研究甚至体育中的应用强调了它的多功能性和重要性。随着我们继续开发新技术，速测法的角色无疑将扩大，导致测量技术及其在日常生活中的应用的进一步进步。