full-scale measurement

简明释义

实尺测量

英英释义

例句

1.In the final phase of the project, we will carry out full-scale measurement to ensure all parameters are met.

在项目的最后阶段，我们将进行全尺度测量以确保所有参数都符合要求。

2.Before launching the new product, the company performed a full-scale measurement of customer satisfaction.

在推出新产品之前，公司进行了全尺度测量以评估客户满意度。

3.The engineers conducted a full-scale measurement to assess the bridge's structural integrity.

工程师们进行了全尺度测量以评估桥梁的结构完整性。

4.The scientists' full-scale measurement of the ocean currents provided valuable data for their study.

科学家们对海洋洋流的全尺度测量为他们的研究提供了宝贵的数据。

5.The research team utilized full-scale measurement techniques to analyze the effects of climate change on coastal erosion.

研究小组利用全尺度测量技术分析气候变化对海岸侵蚀的影响。

作文

In the field of science and engineering, accurate data collection is crucial for validating theories and designs. One concept that plays a significant role in this process is full-scale measurement. This term refers to the practice of measuring the performance or characteristics of an object, system, or process under real-world conditions, as opposed to using models or simulations. The importance of full-scale measurement cannot be overstated, as it provides insights that are often unattainable through smaller-scale experiments or theoretical calculations.For instance, consider the development of a new aircraft. Engineers may use wind tunnel tests to gather preliminary data on aerodynamics; however, these tests are conducted on scaled-down models. While valuable, the results from these models may not accurately reflect the behavior of the actual aircraft once it takes to the skies. To ensure safety and performance, engineers must conduct full-scale measurement during flight tests. These tests allow them to observe how the aircraft performs under various conditions, such as different altitudes, speeds, and weather scenarios. Only through full-scale measurement can they identify potential issues and make necessary adjustments before the aircraft enters commercial service.Moreover, full-scale measurement is essential in civil engineering projects, such as bridge construction. Before a bridge is built, engineers create detailed models to predict its structural integrity. However, once the bridge is completed, it is vital to conduct full-scale measurement to monitor its performance under actual load conditions. This includes assessing how the bridge reacts to traffic, environmental factors, and even seismic activity. Such measurements help engineers ensure that the structure is safe and capable of withstanding real-world stresses over time.The application of full-scale measurement extends beyond engineering into other fields, including environmental science and healthcare. For example, researchers studying the effects of pollution on public health may collect data from entire communities rather than relying solely on small sample sizes. This approach allows for a more comprehensive understanding of how environmental factors influence health outcomes, leading to more effective policies and interventions.In conclusion, full-scale measurement is a fundamental aspect of various disciplines that require precise and reliable data. It bridges the gap between theoretical models and real-world applications, ensuring that innovations are safe and effective. As technology continues to advance, the methods and tools used for full-scale measurement will also evolve, providing even greater accuracy and insight. Ultimately, embracing this practice is essential for progress in science, engineering, and beyond, as it empowers professionals to make informed decisions based on concrete evidence.

在科学和工程领域，准确的数据收集对验证理论和设计至关重要。一个在这个过程中发挥重要作用的概念是全尺度测量。这个术语指的是在真实世界条件下测量物体、系统或过程的性能或特征的做法，而不是使用模型或模拟。全尺度测量的重要性不容小觑，因为它提供了通常无法通过小规模实验或理论计算获得的见解。例如，考虑新飞机的开发。工程师可能会使用风洞测试来收集气动性能的初步数据；然而，这些测试是在缩小模型上进行的。尽管这些数据很有价值，但来自这些模型的结果可能无法准确反映实际飞机一旦飞行时的行为。为了确保安全和性能，工程师必须在飞行测试中进行全尺度测量。这些测试使他们能够观察飞机在各种条件下的表现，例如不同的高度、速度和天气情况。只有通过全尺度测量，他们才能识别潜在问题并在飞机投入商业服务之前进行必要的调整。此外，全尺度测量在土木工程项目中也至关重要，例如桥梁建设。在建造桥梁之前，工程师会创建详细的模型来预测其结构完整性。然而，一旦桥梁完成，在实际负载条件下进行全尺度测量是至关重要的。这包括评估桥梁如何对交通、环境因素甚至地震活动作出反应。这些测量帮助工程师确保结构是安全的，并能够承受现实世界的压力。全尺度测量的应用不仅限于工程，还延伸到其他领域，包括环境科学和医疗保健。例如，研究污染对公共健康影响的研究人员可能会从整个社区收集数据，而不仅仅依赖于小样本。这种方法可以更全面地理解环境因素如何影响健康结果，从而制定更有效的政策和干预措施。总之，全尺度测量是各种需要精确和可靠数据的学科的基本方面。它弥合了理论模型与现实应用之间的差距，确保创新是安全和有效的。随着技术的不断进步，用于全尺度测量的方法和工具也将不断发展，提供更大的准确性和洞察力。最终，接受这一实践对于科学、工程及其他领域的进步至关重要，因为它使专业人士能够基于具体证据做出明智的决策。