accuracy of measuring

简明释义

计量准确度

英英释义

例句

1.To ensure safety, the accuracy of measuring gas levels is critical in industrial settings.

为了确保安全，工业环境中气体水平的测量准确性至关重要。

2.Researchers are developing new tools to improve the accuracy of measuring blood pressure.

研究人员正在开发新工具，以提高血压的测量准确性。

3.The scientist emphasized the importance of the accuracy of measuring in his experiments.

科学家强调了实验中测量的准确性的重要性。

4.The accuracy of measuring temperature is vital for effective climate control.

温度的测量准确性对有效的气候控制至关重要。

5.In construction, the accuracy of measuring dimensions can prevent costly mistakes.

在建筑中，尺寸测量的准确性可以防止昂贵的错误。

作文

In today's world, where precision is paramount, the accuracy of measuring plays a crucial role in various fields such as science, engineering, and even daily life. Understanding the importance of this concept can significantly impact outcomes in research, production, and even personal projects. The accuracy of measuring refers to how close a measured value is to the true value of the quantity being measured. This concept is not only relevant in laboratories or manufacturing plants but also in everyday activities like cooking or home improvement tasks.For instance, in scientific experiments, researchers rely heavily on the accuracy of measuring to ensure that their results are valid and reliable. If a scientist measures a chemical quantity inaccurately, it could lead to incorrect conclusions that may affect further research or applications. Thus, maintaining high standards in measurement techniques is essential for the integrity of scientific work.Similarly, in the field of engineering, the accuracy of measuring can determine the success of a project. Engineers must ensure that the dimensions of materials and components are measured accurately to avoid structural failures. For example, if the measurements of a bridge's components are off by just a few millimeters, it could lead to catastrophic consequences. Hence, engineers use precise instruments and adhere to strict guidelines to guarantee the accuracy of their measurements.Moreover, the accuracy of measuring extends beyond professional fields into our daily lives. When we cook, for example, the precise measurement of ingredients can make a significant difference in the outcome of a recipe. A small error in measuring flour or sugar can alter the texture and taste of baked goods. Therefore, using accurate measuring tools, such as digital scales or measuring cups, becomes necessary to achieve the desired culinary results.In addition to the practical implications, understanding the accuracy of measuring also involves recognizing the limitations of different measuring tools. Not all instruments provide the same level of accuracy; some may have inherent errors or require calibration. For example, a ruler may be sufficient for measuring large objects, but for microscopic measurements, a microscope with precise calibration is necessary. This awareness helps individuals choose the right tools for their specific needs, thereby enhancing the overall quality of their measurements.Furthermore, technological advancements have significantly improved the accuracy of measuring across various domains. Digital measuring devices, laser range finders, and sophisticated software have made it easier to achieve high levels of precision. These innovations not only save time but also reduce human error, which is often a significant factor in inaccurate measurements.In conclusion, the accuracy of measuring is a vital aspect that influences many areas of life, from scientific research to everyday cooking. By understanding its importance and recognizing the tools and techniques available, we can improve our measurement practices. Whether in a laboratory, an engineering site, or our kitchens, striving for accuracy ensures better outcomes and enhances our ability to achieve our goals effectively. Therefore, it is essential to prioritize the accuracy of measuring in all our endeavors, as it ultimately leads to success and reliability in our work and daily activities.

在当今这个精确至关重要的世界里，测量的准确性在科学、工程甚至日常生活等多个领域中发挥着关键作用。理解这一概念的重要性可以显著影响研究、生产甚至个人项目的结果。测量的准确性是指测量值与被测量量的真实值之间的接近程度。这个概念不仅在实验室或制造厂中相关，也适用于烹饪或家庭改善等日常活动。例如，在科学实验中，研究人员非常依赖测量的准确性来确保他们的结果是有效和可靠的。如果科学家测量化学量不准确，可能会导致错误的结论，从而影响后续研究或应用。因此，保持高标准的测量技术对于科学工作的完整性至关重要。同样，在工程领域，测量的准确性可以决定项目的成功。工程师必须确保材料和组件的尺寸被准确测量，以避免结构故障。例如，如果桥梁组件的测量偏差仅几毫米，可能会导致灾难性的后果。因此，工程师使用精密仪器并遵循严格的指南，以确保他们的测量准确。此外，测量的准确性不仅限于专业领域，还延伸到我们的日常生活中。当我们烹饪时，精确测量成分可以对食谱的结果产生重大影响。少量的面粉或糖的测量误差可能会改变烘焙食品的质地和味道。因此，使用准确的测量工具，如电子秤或量杯，变得必要，以实现理想的烹饪结果。除了实际的影响外，理解测量的准确性还涉及认识不同测量工具的局限性。并非所有仪器都提供相同水平的准确性；有些可能存在固有误差或需要校准。例如，尺子可能足够用于测量大物体，但对于微观测量，显微镜和精确校准是必需的。这种意识帮助个人选择适合其特定需求的正确工具，从而提高测量的整体质量。此外，技术进步显著提高了各个领域的测量的准确性。数字测量设备、激光测距仪和复杂软件使实现高精度变得更加容易。这些创新不仅节省时间，还减少了人为错误，而人为错误通常是导致测量不准确的重要因素。总之，测量的准确性是一个重要方面，影响着生活的许多领域，从科学研究到日常烹饪。通过理解其重要性并认识可用的工具和技术，我们可以改善我们的测量实践。无论是在实验室、工程现场还是我们的厨房，追求准确性确保了更好的结果，并增强了我们有效实现目标的能力。因此，在我们所有的努力中优先考虑测量的准确性至关重要，因为这最终导致我们工作和日常活动的成功和可靠性。