measurement rate

简明释义

容积吨率

英英释义

例句

1.A lower measurement rate may result in missed data points during monitoring.

较低的测量速率可能导致在监测过程中丢失数据点。

2.The device operates at a measurement rate of 100 samples per second.

该设备以每秒100个样本的测量速率运行。

3.Adjusting the measurement rate can help improve the precision of the readings.

调整测量速率可以帮助提高读数的精度。

4.In scientific experiments, the measurement rate is crucial for obtaining accurate results.

在科学实验中，测量速率对获得准确结果至关重要。

5.The sensor has a high measurement rate that allows for real-time data collection.

该传感器具有高测量速率，可以实现实时数据收集。

作文

In today's data-driven world, the importance of accurate measurements cannot be overstated. Whether in scientific research, manufacturing, or even daily life, the ability to quantify and evaluate various parameters is crucial. One term that often comes up in discussions about measurement is the measurement rate, which refers to the speed or frequency at which measurements are taken. Understanding the measurement rate is essential for optimizing processes and ensuring quality control.To illustrate the significance of measurement rate, consider a manufacturing plant that produces electronic components. In this setting, the measurement rate can determine how often the quality of products is assessed during production. If the measurement rate is too low, defects may go unnoticed, leading to a higher number of faulty products reaching consumers. Conversely, if the measurement rate is excessively high, it may slow down production and increase costs without significant benefits. Thus, finding the right balance in the measurement rate is vital for maintaining efficiency and quality.Moreover, in scientific experiments, the measurement rate can affect the reliability of results. For example, in a clinical trial testing a new medication, researchers must decide how frequently to measure patient outcomes. A measurement rate that is too infrequent may miss critical changes in a patient's condition, while a rate that is too frequent could overwhelm the participants and lead to inaccurate data. Therefore, establishing an appropriate measurement rate is key to obtaining valid and actionable results.In the realm of environmental monitoring, the measurement rate plays a crucial role in tracking changes over time. For instance, when measuring air quality, authorities need to determine how often to test pollutants in the atmosphere. A higher measurement rate allows for a more comprehensive understanding of pollution patterns and can aid in timely interventions. On the other hand, if the measurement rate is too low, significant events may be overlooked, compromising public health and safety.Furthermore, technology advancements have made it possible to automate many measurement processes, thereby influencing the measurement rate. With the introduction of sensors and real-time data collection, organizations can achieve a higher measurement rate without sacrificing accuracy. This shift has transformed industries, enabling faster decision-making and more responsive operations.In conclusion, the concept of measurement rate is integral to various fields, impacting everything from manufacturing to healthcare and environmental science. By understanding and optimizing the measurement rate, organizations can enhance their processes, improve product quality, and make informed decisions based on reliable data. As we continue to navigate an increasingly complex world, the ability to measure effectively will remain a cornerstone of progress and innovation.

在当今数据驱动的世界中，准确测量的重要性不容小觑。无论是在科学研究、制造业，还是日常生活中，量化和评估各种参数的能力至关重要。在关于测量的讨论中，一个常常出现的术语是测量速率，它指的是进行测量的速度或频率。理解测量速率对于优化过程和确保质量控制至关重要。为了说明测量速率的重要性，考虑一个生产电子元件的制造工厂。在这种环境中，测量速率可以决定在生产过程中多频繁地评估产品的质量。如果测量速率过低，缺陷可能会被忽视，导致更多的有缺陷产品到达消费者手中。相反，如果测量速率过高，可能会减慢生产速度并增加成本，而没有显著的好处。因此，在测量速率上找到合适的平衡对于保持效率和质量至关重要。此外，在科学实验中，测量速率会影响结果的可靠性。例如，在测试新药物的临床试验中，研究人员必须决定多频繁地测量患者的结果。过于不频繁的测量速率可能会遗漏患者状况的关键变化，而过于频繁的测量速率可能会使参与者感到不堪重负，从而导致数据不准确。因此，建立适当的测量速率对于获得有效且可操作的结果至关重要。在环境监测领域，测量速率在跟踪时间变化方面发挥着重要作用。例如，在测量空气质量时，相关部门需要确定多频繁地测试大气中的污染物。较高的测量速率可以更全面地了解污染模式，并能及时采取干预措施。另一方面，如果测量速率过低，可能会遗漏重大事件，从而危及公共健康和安全。此外，技术进步使得许多测量过程自动化成为可能，从而影响了测量速率。随着传感器和实时数据收集的引入，组织可以在不牺牲准确性的情况下实现更高的测量速率。这种转变改变了各个行业，使得更快的决策和更灵活的运营成为可能。总之，测量速率的概念在各个领域中都是不可或缺的，影响着从制造到医疗保健和环境科学的方方面面。通过理解和优化测量速率，组织可以增强其流程，提高产品质量，并基于可靠的数据做出明智的决策。随着我们继续在日益复杂的世界中航行，有效测量的能力将始终是进步和创新的基石。