air sounding

简明释义

1. 大气探测; 2. 声音测高法;

英英释义

例句

1.An air sounding is essential for understanding wind patterns at different altitudes.

空气探测对于理解不同高度的风向模式至关重要。

2.During the flight, the pilot received an air sounding report to ensure safe navigation.

在飞行过程中，飞行员收到了空气探测报告以确保安全导航。

3.The researchers conducted an air sounding to study the temperature variations in the upper atmosphere.

研究人员进行了空气探测以研究高层大气中的温度变化。

4.The meteorologist used an air sounding to analyze the atmospheric conditions before the storm.

气象学家使用空气探测来分析暴风雨前的气象条件。

5.The data from the air sounding helped predict the likelihood of severe weather events.

空气探测的数据帮助预测严重天气事件的可能性。

作文

In recent years, the concept of air sounding has gained significant attention in various fields, particularly in environmental science and meteorology. Air sounding refers to the process of collecting data about the atmosphere by measuring different parameters at various altitudes. This technique is crucial for understanding weather patterns, predicting storms, and studying climate change. By utilizing tools like weather balloons equipped with instruments, scientists can gather vital information about temperature, humidity, pressure, and wind speed as they ascend through the atmosphere.The importance of air sounding cannot be overstated. For instance, meteorologists rely on this data to create accurate weather forecasts. The information collected during air sounding helps them to analyze the stability of the atmosphere and identify potential severe weather events. Without such data, predicting phenomena like hurricanes or tornadoes would be significantly more challenging, potentially putting lives at risk.Moreover, air sounding plays a critical role in climate research. Scientists study atmospheric profiles obtained from air sounding to understand long-term trends in temperature and humidity. This data is essential for developing models that predict how climate change will affect weather patterns globally. For example, by analyzing historical air sounding data, researchers can observe changes in the troposphere, which is the lowest layer of Earth's atmosphere. Such insights are vital for formulating strategies to combat climate change and mitigate its impacts.In addition to its applications in meteorology and climate science, air sounding is also used in aviation. Pilots and air traffic controllers utilize data from air sounding to assess flight conditions, ensuring safe takeoffs and landings. Understanding wind patterns and turbulence at different altitudes can help pilots navigate safely through varying weather conditions. This application highlights the interconnectedness of air sounding across different sectors, emphasizing its importance beyond just scientific research.Furthermore, advancements in technology have enhanced the capabilities of air sounding. With the advent of satellite technology and automated weather stations, the accuracy and frequency of air sounding have improved dramatically. Real-time data collection allows for more immediate responses to changing weather conditions, benefiting not only meteorologists but also farmers, event planners, and the general public.In conclusion, air sounding is a vital tool in our understanding of the atmosphere. Its applications span across meteorology, climate science, and aviation, demonstrating its far-reaching significance. As we continue to face the challenges posed by climate change, the importance of accurate atmospheric data cannot be underestimated. Investing in air sounding technologies and research will undoubtedly play a crucial role in shaping our future understanding of the environment and improving our ability to respond to natural disasters. By harnessing the power of air sounding, we can work towards a safer and more informed society, prepared to tackle the challenges that lie ahead.

近年来，空气探测的概念在各个领域，尤其是环境科学和气象学中引起了显著关注。空气探测指的是通过在不同高度测量各种参数来收集大气数据的过程。这种技术对于理解天气模式、预测风暴和研究气候变化至关重要。科学家们利用配备仪器的气象气球等工具，可以在上升过程中收集关于温度、湿度、压力和风速的重要信息。空气探测的重要性不容小觑。例如，气象学家依赖这些数据来创建准确的天气预报。在空气探测期间收集的信息帮助他们分析大气的稳定性并识别潜在的严重天气事件。如果没有这样的数据，预测飓风或龙卷风等现象将变得极具挑战性，可能会危及生命。此外，空气探测在气候研究中也扮演着关键角色。科学家们研究从空气探测获得的大气剖面，以了解温度和湿度的长期趋势。这些数据对于开发预测气候变化对全球天气模式影响的模型至关重要。例如，通过分析历史的空气探测数据，研究人员可以观察到对流层的变化，这是地球大气的最低层。这些见解对于制定应对气候变化的策略和减轻其影响至关重要。除了在气象学和气候科学中的应用外，空气探测在航空领域也被广泛使用。飞行员和空中交通管制员利用来自空气探测的数据来评估飞行条件，确保安全起飞和着陆。了解不同高度的风模式和湍流可以帮助飞行员安全地穿越变化的天气条件。这一应用突显了空气探测在不同领域之间的相互联系，强调了它在科学研究之外的重要性。此外，技术的进步增强了空气探测的能力。随着卫星技术和自动气象站的出现，空气探测的准确性和频率显著提高。实时数据收集使得对变化天气条件的更及时响应成为可能，这不仅惠及气象学家，也惠及农民、活动策划者和公众。总之，空气探测是我们理解大气的重要工具。它的应用跨越气象学、气候科学和航空，展示了其深远的意义。随着我们继续面对气候变化带来的挑战，准确的大气数据的重要性不容低估。投资于空气探测技术和研究无疑将在塑造我们未来对环境的理解和提高我们应对自然灾害的能力方面发挥关键作用。通过利用空气探测的力量，我们可以朝着一个更安全、更有信息的社会迈进，准备迎接未来的挑战。