reference temperature

简明释义

基准温度

英英释义

例句

1.In thermodynamics, the reference temperature 参考温度 is crucial for determining thermal efficiency.

在热力学中，参考温度 参考温度 对于确定热效率至关重要。

2.The reference temperature 参考温度 for this material is set at 20°C in the specification sheet.

该材料的参考温度 参考温度 在规格表中设定为20°C。

3.To ensure accuracy, the device must be adjusted to the correct reference temperature 参考温度 before use.

为了确保准确性，设备在使用前必须调整到正确的参考温度 参考温度。

4.The calibration of the thermometer was done at a standard reference temperature 参考温度 of 25°C.

温度计的校准是在标准参考温度 参考温度 25°C下进行的。

5.The experiment was conducted with a reference temperature 参考温度 of 0°C to measure the freezing point.

实验是在0°C的参考温度 参考温度下进行的，以测量冰点。

作文

In the field of science and engineering, the concept of reference temperature plays a crucial role in various applications. A reference temperature is a standard or baseline temperature against which other temperatures are compared or measured. This concept is particularly important in thermodynamics, material science, and environmental studies. Understanding the significance of a reference temperature can help us make informed decisions in both research and practical applications.For instance, in thermodynamics, the behavior of gases can be significantly influenced by temperature. When conducting experiments, scientists often use a specific reference temperature to ensure that their results are consistent and comparable. By establishing a common baseline, researchers can accurately analyze how different substances behave under varying thermal conditions. This practice not only enhances the reliability of experimental data but also facilitates collaboration among scientists from different regions who may use different measurement systems.Moreover, in material science, the properties of materials such as strength, conductivity, and thermal expansion can vary with temperature. Engineers often specify a reference temperature when designing materials for specific applications. For example, metals may expand or contract when heated or cooled, and knowing the reference temperature allows engineers to predict how these changes will affect the integrity and performance of a structure. This is particularly vital in industries such as aerospace and construction, where safety and reliability are paramount.Another area where reference temperature is essential is in environmental studies. Climate scientists often utilize a reference temperature to assess changes in global temperatures over time. By comparing current temperature readings to a historical reference temperature, researchers can identify trends and patterns in climate change. This information is critical for developing strategies to mitigate the effects of climate change and for informing policy decisions that impact our environment.Furthermore, in everyday life, we encounter the concept of reference temperature in various forms. For instance, when cooking, recipes often provide a recommended cooking temperature as a reference temperature. Following this guideline ensures that food is cooked properly and safely. In this context, the reference temperature serves as a benchmark that helps home cooks achieve consistent results, much like scientists and engineers do in their respective fields.In conclusion, the notion of reference temperature is integral to multiple disciplines, ranging from scientific research to practical applications in daily life. By establishing a standard temperature for comparison, we can enhance the accuracy and reliability of our measurements and analyses. As we continue to face challenges related to temperature fluctuations in our environment and technology, understanding and utilizing reference temperature will remain essential for making informed decisions. Whether in the lab, the workshop, or the kitchen, the concept of a reference temperature is a powerful tool that aids in achieving precision and consistency in our work and lives.

在科学和工程领域，参考温度的概念在各种应用中起着至关重要的作用。参考温度是一个标准或基准温度，用于与其他温度进行比较或测量。这个概念在热力学、材料科学和环境研究中尤为重要。理解参考温度的意义可以帮助我们在研究和实际应用中做出明智的决策。例如，在热力学中，气体的行为会受到温度的显著影响。在进行实验时，科学家通常使用特定的参考温度来确保他们的结果是一致且可比较的。通过建立一个共同的基准，研究人员可以准确分析不同物质在不同热条件下的行为。这种做法不仅增强了实验数据的可靠性，还促进了来自不同地区的科学家之间的合作，他们可能使用不同的测量系统。此外，在材料科学中，材料的强度、导电性和热膨胀等性质可能会随温度而变化。工程师在为特定应用设计材料时，通常会指定参考温度。例如，金属在加热或冷却时可能会膨胀或收缩，了解参考温度使工程师能够预测这些变化将如何影响结构的完整性和性能。这在航空航天和建筑等行业中尤为重要，因为安全性和可靠性至关重要。另一个参考温度至关重要的领域是环境研究。气候科学家经常利用参考温度来评估全球温度随时间的变化。通过将当前温度读数与历史参考温度进行比较，研究人员可以识别气候变化中的趋势和模式。这些信息对于制定减轻气候变化影响的策略以及为影响我们环境的政策决策提供建议至关重要。此外，在日常生活中，我们以各种形式遇到参考温度的概念。例如，在烹饪时，食谱通常提供推荐的烹饪温度作为参考温度。遵循这一指导方针可以确保食物被正确和安全地烹饪。在这种情况下，参考温度作为一个基准，帮助家庭厨师实现一致的结果，就像科学家和工程师在各自的领域中所做的那样。总之，参考温度的概念是多个学科不可或缺的一部分，从科学研究到日常生活中的实际应用。通过建立一个用于比较的标准温度，我们可以提高测量和分析的准确性和可靠性。随着我们继续面临环境和技术中温度波动相关的挑战，理解和利用参考温度将继续对做出明智的决策至关重要。无论是在实验室、车间还是厨房，参考温度的概念都是一个强大的工具，帮助我们在工作和生活中实现精确和一致。