measuring accuracy

简明释义

测量精度

英英释义

例句

1.In scientific experiments, measuring accuracy is crucial to ensure reliable results.

在科学实验中，测量准确性 对于确保结果的可靠性至关重要。

2.When calibrating instruments, measuring accuracy is essential for precise readings.

在校准仪器时，测量准确性 对于精确读数是必不可少的。

3.The lab technician focused on measuring accuracy to improve the quality of the tests.

实验室技术员专注于 测量准确性 以提高测试的质量。

4.In the field of statistics, measuring accuracy helps to validate the findings.

在统计学领域，测量准确性 有助于验证研究结果。

5.The company implemented new software for better measuring accuracy in their production line.

公司实施了新软件，以便在生产线中更好地 测量准确性。

作文

In the field of science and technology, the concept of measuring accuracy is crucial for ensuring that data collected from experiments and observations are reliable and valid. Measuring accuracy refers to the degree to which a measured value aligns with the true value or standard. This concept is not only limited to scientific measurements but extends to various domains, including engineering, manufacturing, and even everyday life.For instance, in scientific research, accurate measurements are essential for drawing valid conclusions. If a scientist is studying the effects of a new drug, they must ensure that their measurements of dosage and patient responses are precise. Any error in these measurements could lead to incorrect interpretations and potentially harmful consequences. Therefore, measuring accuracy becomes a fundamental aspect of the research process, influencing the credibility of the findings.Moreover, in the realm of engineering, the importance of measuring accuracy cannot be overstated. Engineers rely on precise measurements when designing structures, machines, and systems. For example, in civil engineering, the accuracy of measurements can determine the stability and safety of a building. An inaccurate measurement could result in structural failures, leading to significant financial losses and risking lives. Thus, engineers employ various tools and techniques to ensure measuring accuracy, such as calibration of instruments and adherence to strict standards.In manufacturing, measuring accuracy is vital for quality control. Companies must ensure that their products meet specific standards and specifications. For instance, in the automotive industry, even a slight deviation in the dimensions of a component can affect the overall performance of a vehicle. To maintain high-quality standards, manufacturers implement rigorous testing procedures that focus on measuring accuracy. This includes using precision instruments and statistical methods to monitor production processes.Beyond professional fields, measuring accuracy plays a role in our daily lives. For example, when cooking, the accuracy of measurements can significantly impact the outcome of a dish. A recipe may call for a certain amount of an ingredient, and deviating from that measurement can lead to disastrous results. Therefore, understanding the importance of measuring accuracy can enhance our cooking skills and lead to better culinary results.In conclusion, measuring accuracy is a fundamental concept that permeates various aspects of life, from scientific research and engineering to manufacturing and everyday activities. It ensures that we obtain reliable data, create safe structures, produce quality products, and achieve desired outcomes in our personal endeavors. As we continue to advance in technology and science, the emphasis on measuring accuracy will remain paramount, shaping how we understand and interact with the world around us.

在科学和技术领域，measuring accuracy（测量准确性）这一概念对于确保从实验和观察中收集的数据的可靠性和有效性至关重要。measuring accuracy（测量准确性）指的是测量值与真实值或标准之间的一致程度。这个概念不仅限于科学测量，还扩展到工程、制造甚至日常生活等多个领域。例如，在科学研究中，准确的测量对得出有效结论至关重要。如果一位科学家正在研究新药的效果，他们必须确保对剂量和患者反应的测量是精确的。这些测量中的任何错误都可能导致不正确的解释，甚至可能造成危害。因此，measuring accuracy（测量准确性）成为研究过程的基本方面，影响着研究结果的可信度。此外，在工程领域，measuring accuracy（测量准确性）的重要性更是不可低估。工程师在设计结构、机器和系统时依赖于精确的测量。例如，在土木工程中，测量的准确性可以决定建筑物的稳定性和安全性。测量不准确可能导致结构失效，从而造成巨大的经济损失和生命危险。因此，工程师采用各种工具和技术来确保measuring accuracy（测量准确性），如仪器的校准和严格标准的遵守。在制造业中，measuring accuracy（测量准确性）对质量控制至关重要。公司必须确保其产品符合特定的标准和规格。例如，在汽车行业，即使是组件尺寸的轻微偏差也会影响车辆的整体性能。为了保持高质量标准，制造商实施严格的测试程序，重点关注measuring accuracy（测量准确性）。这包括使用精密仪器和统计方法来监控生产过程。除了专业领域，measuring accuracy（测量准确性）在我们的日常生活中也发挥着作用。例如，在烹饪时，测量的准确性会显著影响菜肴的结果。一份食谱可能要求某种成分的特定量，偏离该测量可能导致灾难性的结果。因此，理解measuring accuracy（测量准确性）的重要性可以提升我们的烹饪技巧，并带来更好的烹饪结果。总之，measuring accuracy（测量准确性）是一个根本概念，渗透到生活的各个方面，从科学研究和工程到制造和日常活动。它确保我们获得可靠的数据，创建安全的结构，生产优质的产品，并在个人努力中实现预期的结果。随着我们在技术和科学方面的不断进步，对measuring accuracy（测量准确性）的重视将始终是首要任务，塑造我们理解和与周围世界互动的方式。