free air temperature

简明释义

大气温度

英英释义

例句

1.When measuring engine performance, it is crucial to consider the free air temperature 自由空气温度 for accurate results.

在测量发动机性能时，考虑自由空气温度 free air temperature对于获得准确结果至关重要。

2.The meteorologist reported that the free air temperature 自由空气温度 today is significantly lower than average.

气象学家报告说，今天的自由空气温度 free air temperature明显低于平均水平。

3.Farmers often monitor the free air temperature 自由空气温度 to optimize crop growth conditions.

农民们通常监测自由空气温度 free air temperature以优化作物生长条件。

4.In aviation, pilots must be aware of the free air temperature 自由空气温度 at different altitudes for safe flying.

在航空中，飞行员必须了解不同高度的自由空气温度 free air temperature以确保安全飞行。

5.The free air temperature 自由空气温度 affects the efficiency of solar panels, especially in summer.

在夏季，自由空气温度 free air temperature影响太阳能电池板的效率。

作文

Understanding the concept of free air temperature is crucial for various fields, including meteorology, aviation, and environmental science. The term refers to the temperature of the air that is not influenced by nearby surfaces or objects, allowing for an accurate measurement of atmospheric conditions. This measurement is essential for understanding weather patterns, predicting climate changes, and ensuring safe flight operations. In this essay, we will explore the significance of free air temperature and its applications in different sectors.Firstly, in meteorology, free air temperature serves as a fundamental parameter for weather forecasting. Meteorologists rely on accurate temperature readings taken at specific altitudes to analyze atmospheric stability and predict weather events such as storms, heatwaves, and cold fronts. By measuring the free air temperature at various layers of the atmosphere, meteorologists can create detailed weather models that help in anticipating severe weather conditions. This data is vital for issuing timely warnings to the public and ensuring safety during extreme weather events.Secondly, in the field of aviation, understanding free air temperature is critical for flight safety and efficiency. Pilots and air traffic controllers use temperature data to assess aircraft performance, particularly during takeoff and landing. The free air temperature affects air density, which in turn influences lift and engine performance. For instance, on hot days, the free air temperature may be higher, resulting in lower air density. This situation requires pilots to adjust their takeoff procedures to ensure a safe ascent. Therefore, accurate measurements of free air temperature are essential for optimizing flight operations and enhancing passenger safety.Furthermore, environmental scientists study free air temperature to understand climate change and its impacts on ecosystems. By analyzing long-term temperature trends in the free atmosphere, researchers can identify patterns related to global warming, such as shifts in seasonal weather and alterations in biodiversity. This information is crucial for developing strategies to mitigate the effects of climate change and protect vulnerable species and habitats. Additionally, understanding how free air temperature interacts with other atmospheric variables helps scientists predict future climate scenarios, which is vital for policy-making and resource management.In conclusion, the concept of free air temperature plays a significant role across various disciplines. Its importance in meteorology, aviation, and environmental science cannot be overstated. By providing accurate measurements of air temperature unaffected by surrounding surfaces, free air temperature enables better weather forecasting, enhances flight safety, and informs climate research. As we continue to face challenges posed by climate change and extreme weather events, understanding and utilizing the concept of free air temperature will remain essential for ensuring a safer and more sustainable future.

理解自由空气温度这一概念对于气象学、航空和环境科学等多个领域至关重要。这个术语指的是不受附近表面或物体影响的空气温度，从而能够准确测量大气条件。这一测量对于理解天气模式、预测气候变化以及确保飞行安全至关重要。在这篇文章中，我们将探讨自由空气温度的重要性及其在不同领域的应用。首先，在气象学中，自由空气温度是天气预报的基本参数。气象学家依赖于在特定高度进行的准确温度测量，以分析大气稳定性并预测天气事件，如风暴、热浪和冷锋。通过测量不同层次的大气中的自由空气温度，气象学家可以创建详细的天气模型，帮助预见严重的天气条件。这些数据对于及时向公众发出警告并确保在极端天气事件期间的安全至关重要。其次，在航空领域，理解自由空气温度对于飞行安全和效率至关重要。飞行员和空中交通管制员使用温度数据来评估飞机性能，特别是在起飞和着陆时。自由空气温度影响空气密度，从而影响升力和发动机性能。例如，在炎热的日子里，自由空气温度可能较高，导致空气密度降低。这种情况要求飞行员调整起飞程序，以确保安全上升。因此，准确测量自由空气温度对于优化飞行操作和提高乘客安全性至关重要。此外，环境科学家研究自由空气温度以了解气候变化及其对生态系统的影响。通过分析自由大气中长期的温度趋势，研究人员可以识别与全球变暖相关的模式，例如季节性天气的变化和生物多样性的改变。这些信息对于制定减轻气候变化影响和保护脆弱物种及栖息地的策略至关重要。此外，理解自由空气温度如何与其他大气变量相互作用，有助于科学家预测未来的气候情景，这对政策制定和资源管理至关重要。总之，自由空气温度的概念在多个学科中扮演着重要角色。它在气象学、航空和环境科学中的重要性不容小觑。通过提供不受周围表面影响的空气温度的准确测量，自由空气温度使得更好的天气预报成为可能，增强了飞行安全，并为气候研究提供了信息。随着我们继续面临气候变化和极端天气事件带来的挑战，理解和利用自由空气温度的概念将仍然是确保更加安全和可持续未来的关键。