measuring range

简明释义

测量范围

英英释义

例句

1.The measuring range of this scale is limited to 200 kg, making it unsuitable for heavier objects.

这个秤的测量范围限制在200公斤，因此不适合称重更重的物体。

2.The pressure gauge features a measuring range from 0 to 300 psi, suitable for most applications.

这个压力表的测量范围从0到300 psi，适用于大多数应用。

3.The thermometer has a wide measuring range that allows it to accurately record temperatures from -50°C to 150°C.

这个温度计具有广泛的测量范围，可以准确记录从-50°C到150°C的温度。

4.When selecting a multimeter, it's important to consider the measuring range for voltage and current.

选择万用表时，考虑电压和电流的测量范围是很重要的。

5.For accurate pH readings, make sure the meter's measuring range covers the expected acidity levels.

为了获得准确的pH读数，请确保仪表的测量范围涵盖预期的酸度水平。

作文

Understanding the concept of measuring range is essential in various fields, including science, engineering, and everyday life. The term refers to the limits within which a particular measurement can be accurately taken. For example, when using a thermometer, the measuring range indicates the lowest and highest temperatures that the device can accurately record. This is crucial because if the temperature falls outside this range, the readings may become unreliable or completely erroneous.In scientific experiments, knowing the measuring range of instruments is vital for obtaining valid results. If a researcher uses a scale with a measuring range of 0-100 grams to weigh an object that weighs 150 grams, the scale will not provide an accurate reading. Therefore, understanding the limitations of measurement tools helps prevent errors in data collection and analysis.Similarly, in engineering, the measuring range of sensors and devices plays a significant role in the design and functionality of systems. For instance, in a pressure measurement system, if the measuring range is not appropriately selected, it can lead to system failures or inaccuracies that could compromise safety and performance. Engineers must carefully consider the measuring range when selecting instruments to ensure they meet the requirements of their specific applications.Everyday life also involves the concept of measuring range. When cooking, for example, measuring cups and spoons come with marked measurements that indicate their measuring range. If a recipe calls for a certain amount of an ingredient, using a tool with an inadequate measuring range might result in incorrect proportions, leading to unsatisfactory dishes. Thus, being aware of the measuring range of kitchen tools can significantly impact the quality of food prepared.In conclusion, the measuring range is a fundamental concept that applies across various domains. It defines the boundaries within which accurate measurements can be made, influencing the reliability of data in scientific research, engineering design, and even daily cooking activities. By understanding and respecting the measuring range of different tools and instruments, individuals can improve their accuracy and effectiveness in both professional and personal contexts. Whether in a laboratory, a construction site, or a kitchen, the importance of knowing the measuring range cannot be overstated, as it is key to achieving desired outcomes and ensuring success in any measurement-related task.

理解测量范围的概念在科学、工程和日常生活等各个领域都至关重要。这个术语指的是可以准确进行特定测量的限制。例如，在使用温度计时，测量范围指示设备可以准确记录的最低和最高温度。这一点至关重要，因为如果温度超出了这个范围，读数可能会变得不可靠或完全错误。在科学实验中，了解仪器的测量范围对于获得有效结果至关重要。如果研究人员使用一个测量范围为0-100克的秤来称重一个重150克的物体，秤将无法提供准确的读数。因此，了解测量工具的限制有助于防止数据收集和分析中的错误。同样，在工程领域，传感器和设备的测量范围在系统的设计和功能中发挥着重要作用。例如，在压力测量系统中，如果未正确选择测量范围，可能会导致系统故障或不准确，从而危及安全和性能。工程师必须仔细考虑测量范围，以确保它们满足特定应用的要求。日常生活中也涉及测量范围的概念。例如，在烹饪时，量杯和量勺上都有标记，指示它们的测量范围。如果食谱要求一定量的成分，使用测量范围不足的工具可能导致配比不正确，从而导致菜肴不令人满意。因此，了解厨房工具的测量范围可以显著影响所准备食品的质量。总之，测量范围是一个适用于各个领域的基本概念。它定义了可以进行准确测量的边界，影响科学研究、工程设计，甚至日常烹饪活动中数据的可靠性。通过理解和尊重不同工具和仪器的测量范围，个人可以提高其在专业和个人环境中的准确性和有效性。无论是在实验室、建筑工地还是厨房，了解测量范围的重要性不可低估，因为它是实现期望结果和确保任何与测量相关任务成功的关键。