base measurement

简明释义

基线测量

英英释义

例句

1.The engineers took a base measurement 基础测量 of the bridge's height before making any modifications.

工程师在进行任何修改之前，先对桥的高度进行了基础测量 base measurement。

2.For accurate results, the base measurement 基础测量 of the soil's pH level is essential.

为了获得准确的结果，土壤pH值的基础测量 base measurement是必不可少的。

3.In order to track progress, we first need a base measurement 基础测量 of our current sales figures.

为了追踪进展，我们首先需要一个当前销售数据的基础测量 base measurement。

4.Before starting the experiment, we need to establish a reliable base measurement 基础测量 for temperature.

在开始实验之前，我们需要建立一个可靠的基础测量 base measurement来测量温度。

5.The base measurement 基础测量 of the room's dimensions will help us plan the layout effectively.

房间尺寸的基础测量 base measurement将帮助我们有效地规划布局。

作文

In the field of science and engineering, precise measurements are crucial for conducting experiments and building reliable models. One fundamental concept that often arises in this context is the notion of a base measurement, which refers to a standard or reference measurement used as a starting point for further calculations or comparisons. Understanding the significance of a base measurement is essential for anyone involved in research or technical projects. A base measurement serves multiple purposes. Firstly, it provides a consistent foundation upon which other measurements can be compared. For instance, when measuring the temperature of a substance, scientists may use the freezing point of water (0 degrees Celsius) as a base measurement. This allows them to gauge how much hotter or colder a substance is relative to this standard. In this way, the base measurement acts as a reference point, ensuring that all subsequent measurements are meaningful and contextualized. Secondly, a base measurement is crucial for ensuring accuracy and reliability in experimental results. When researchers conduct experiments, they often need to calibrate their instruments against a known base measurement. For example, if a scale is used to weigh objects, it must be calibrated using a base measurement like a standard weight. Without such calibration, the results could be skewed, leading to incorrect conclusions. Thus, establishing a reliable base measurement is a critical step in any scientific endeavor.Moreover, the concept of a base measurement extends beyond the realm of physical sciences. In fields such as economics, a base measurement can refer to a benchmark against which economic indicators are assessed. For example, when evaluating inflation rates, economists may use the Consumer Price Index (CPI) from a specific year as a base measurement. This allows them to compare current prices to the historical data, providing insights into the economic trends over time.In addition to its practical applications, the idea of a base measurement also highlights the importance of standardization in various fields. Standardization ensures that everyone is operating under the same conditions and definitions, which is vital for effective communication and collaboration. When researchers, engineers, or economists share their findings, they rely on universally accepted base measurements to convey their results accurately.To summarize, a base measurement is an integral component of scientific inquiry, engineering practices, and economic analysis. It offers a reference point for comparison, enhances the accuracy of measurements, and promotes standardization across disciplines. As we continue to advance in technology and knowledge, understanding and utilizing base measurements will remain essential for achieving reliable and meaningful results in any field of study. In conclusion, whether in a laboratory, a manufacturing facility, or an economic research office, the role of a base measurement cannot be overstated. It is the cornerstone upon which accurate measurements and analyses are built, enabling us to make informed decisions based on solid data. Therefore, recognizing the importance of establishing a reliable base measurement should be a priority for anyone engaged in quantitative research or technical work.

在科学和工程领域，精确的测量对于进行实验和构建可靠模型至关重要。在这种情况下，常常出现的一个基本概念是基准测量的概念，它指的是用作进一步计算或比较的起点的标准或参考测量。理解基准测量的重要性对于任何参与研究或技术项目的人来说都是至关重要的。基准测量有多个用途。首先，它提供了一个一致的基础，以便对其他测量进行比较。例如，在测量物质的温度时，科学家可能会使用水的冰点（0摄氏度）作为基准测量。这使他们能够评估物质相对于这一标准的温度是多么热或冷。通过这种方式，基准测量充当参考点，确保所有后续测量都有意义并且具有上下文。其次，基准测量对于确保实验结果的准确性和可靠性至关重要。当研究人员进行实验时，他们通常需要根据已知的基准测量来校准他们的仪器。例如，如果使用天平称量物体，则必须使用标准重量作为基准测量进行校准。如果没有这样的校准，结果可能会失真，从而导致错误的结论。因此，建立可靠的基准测量是任何科学工作中的关键步骤。此外，基准测量的概念超越了物理科学的领域。在经济学等领域，基准测量可以指用于评估经济指标的基准。例如，在评估通货膨胀率时，经济学家可能会使用特定年份的消费者价格指数（CPI）作为基准测量。这使他们能够将当前价格与历史数据进行比较，从而提供对经济趋势的深入洞察。除了其实际应用之外，基准测量的思想还突显了各个领域标准化的重要性。标准化确保每个人都在相同的条件和定义下运作，这对于有效的沟通和合作至关重要。当研究人员、工程师或经济学家分享他们的发现时，他们依赖于普遍接受的基准测量来准确传达他们的结果。总之，基准测量是科学探究、工程实践和经济分析的组成部分。它提供了比较的参考点，提高了测量的准确性，并促进了各学科之间的标准化。随着我们在技术和知识上的不断进步，理解和利用基准测量仍将是实现任何研究领域可靠和有意义结果的关键。最后，无论是在实验室、制造设施还是经济研究办公室，基准测量的作用都不容小觑。它是准确测量和分析的基石，使我们能够根据可靠的数据做出明智的决策。因此，认识到建立可靠的基准测量的重要性应该是任何从事定量研究或技术工作的人的首要任务。