accuracy of measurement
简明释义
测量精度
英英释义
The degree to which the result of a measurement conforms to the correct value or a standard. | 测量结果与正确值或标准的一致程度。 |
例句
1.The scientist emphasized the importance of the accuracy of measurement in her experiments.
科学家强调了实验中测量的准确性的重要性。
2.To ensure reliable results, we must improve the accuracy of measurement in our data collection process.
为了确保结果可靠,我们必须提高数据收集过程中测量的准确性。
3.The engineer conducted a thorough review of the accuracy of measurement for the new equipment.
工程师对新设备的测量的准确性进行了全面审查。
4.Calibration is essential to maintain the accuracy of measurement in laboratory instruments.
校准对于保持实验室仪器的测量的准确性至关重要。
5.In construction, the accuracy of measurement can significantly impact the project's success.
在建筑中,测量的准确性会显著影响项目的成功。
作文
In the field of science and engineering, the accuracy of measurement plays a crucial role in determining the validity and reliability of experimental results. Accurate measurements are essential for making informed decisions, whether in research, manufacturing, or everyday life. For instance, when scientists conduct experiments, they rely on precise measurements to draw conclusions about their hypotheses. If the accuracy of measurement is compromised, the results can lead to erroneous interpretations and potentially misguided applications. Therefore, understanding and ensuring the accuracy of measurement is paramount to achieving credible outcomes.One common example of the importance of accuracy of measurement can be found in the pharmaceutical industry. When developing new medications, researchers must measure the concentration of active ingredients with high precision. Any deviation from the required dosage can result in ineffective treatment or, worse, adverse side effects. Thus, the accuracy of measurement directly impacts patient safety and the efficacy of drugs. In this context, implementing rigorous quality control measures becomes imperative to maintain the integrity of the measurements.Moreover, in the realm of construction and engineering, the accuracy of measurement is vital for ensuring the safety and stability of structures. Engineers must measure dimensions, angles, and weights accurately to design buildings and bridges that can withstand various loads and environmental conditions. A small error in measurement could lead to catastrophic failures, resulting in loss of life and significant financial repercussions. Therefore, professionals in these fields employ advanced tools and technologies to enhance the accuracy of measurement, such as laser scanning and digital surveying equipment.In everyday life, the accuracy of measurement affects many routine activities. For example, when cooking, precise measurements of ingredients are necessary to achieve the desired taste and texture of a dish. A slight miscalculation in the amount of salt or sugar can alter the flavor profile entirely. Similarly, when weighing oneself, the accuracy of measurement on the scale can influence one’s perception of health and fitness. This illustrates that even in mundane tasks, the need for accuracy cannot be overlooked.Furthermore, advancements in technology have significantly improved the accuracy of measurement across various disciplines. Digital devices, such as smartphones and smartwatches, now come equipped with sensors that can measure heart rate, distance, and other metrics with remarkable precision. These innovations not only enhance personal health monitoring but also contribute to fields like sports science and fitness training, where accurate data is crucial for performance improvement.In conclusion, the accuracy of measurement is an integral aspect of numerous fields and daily activities. Its significance cannot be overstated, as it influences scientific research, industrial production, construction safety, culinary practices, and personal health. By prioritizing accurate measurements, individuals and organizations can make better decisions, improve outcomes, and ultimately enhance the quality of life. As we continue to advance technologically, it is essential to remain vigilant about maintaining and improving the accuracy of measurement to ensure that we are building a reliable foundation for the future.
在科学和工程领域,测量的准确性在确定实验结果的有效性和可靠性方面起着至关重要的作用。准确的测量对于做出明智的决策至关重要,无论是在研究、制造还是日常生活中。例如,当科学家进行实验时,他们依赖精确的测量来得出关于假设的结论。如果测量的准确性受到损害,结果可能会导致错误的解释和潜在的误导性应用。因此,理解和确保测量的准确性对于实现可信的结果至关重要。测量的准确性重要性的一个常见例子可以在制药行业中找到。在开发新药时,研究人员必须精确测量活性成分的浓度。任何剂量的偏差都可能导致治疗效果不佳或更糟糕的副作用。因此,测量的准确性直接影响患者安全和药物的有效性。在这种情况下,实施严格的质量控制措施变得至关重要,以维护测量的完整性。此外,在建筑和工程领域,测量的准确性对确保结构的安全性和稳定性至关重要。工程师必须准确测量尺寸、角度和重量,以设计能够承受各种负载和环境条件的建筑和桥梁。测量中的小错误可能导致灾难性的失败,造成生命损失和重大经济损失。因此,这些领域的专业人士采用先进的工具和技术来提高测量的准确性,例如激光扫描和数字测绘设备。在日常生活中,测量的准确性影响许多日常活动。例如,在烹饪时,食材的精确测量是实现菜肴所需口味和质地的必要条件。盐或糖的微小计算错误可能会完全改变风味特征。类似地,当称体重时,秤上的测量的准确性会影响一个人对健康和健身的看法。这说明即使在平凡的任务中,准确性的需求也不可忽视。此外,技术的进步显著提高了各个学科的测量的准确性。数字设备,如智能手机和智能手表,现在配备了可以以惊人的精度测量心率、距离和其他指标的传感器。这些创新不仅增强了个人健康监测,还为运动科学和健身训练等领域做出了贡献,在这些领域中,准确的数据对性能改进至关重要。总之,测量的准确性是众多领域和日常活动的一个重要方面。它的重要性不容低估,因为它影响科学研究、工业生产、建筑安全、烹饪实践和个人健康。通过优先考虑准确的测量,个人和组织可以做出更好的决策、改善结果,并最终提高生活质量。随着我们继续在技术上取得进步,保持和提高测量的准确性是至关重要的,以确保我们为未来建立可靠的基础。
相关单词
