Table of Standard Atmosphere

简明释义

标准大气表

英英释义

例句

1.The Table of Standard Atmosphere provides essential information for meteorologists studying weather patterns.

对于研究天气模式的气象学家来说，标准大气表提供了必要的信息。

2.For accurate navigation, sailors use the Table of Standard Atmosphere to understand wind conditions at sea.

为了精确导航，水手使用标准大气表来了解海上的风况。

3.The engineer referred to the Table of Standard Atmosphere for accurate pressure readings at various altitudes.

工程师参考了标准大气表以获取不同高度的准确压力读数。

4.When calculating lift, pilots must consider the data from the Table of Standard Atmosphere.

在计算升力时，飞行员必须考虑来自标准大气表的数据。

5.In aerospace design, the Table of Standard Atmosphere is crucial for simulating flight conditions.

在航空航天设计中，标准大气表对模拟飞行条件至关重要。

作文

The concept of the Table of Standard Atmosphere is crucial in various fields, including meteorology, aviation, and engineering. It provides a standardized set of atmospheric conditions at different altitudes, which is essential for a variety of applications. The Table of Standard Atmosphere serves as a reference point for scientists and engineers to understand how atmospheric pressure, temperature, density, and other parameters change with altitude. This information is vital for designing aircraft, predicting weather patterns, and conducting scientific research.In aviation, for instance, pilots rely on the Table of Standard Atmosphere to determine the performance of their aircraft at different flight levels. The table outlines how air density decreases with altitude, affecting lift, drag, and engine performance. Understanding these variations helps pilots make informed decisions regarding takeoff, cruising altitude, and landing approaches. Without the Table of Standard Atmosphere, pilots would face significant challenges in ensuring safe and efficient flights.Meteorologists also utilize the Table of Standard Atmosphere to interpret weather data accurately. Weather balloons, for example, are launched to collect data on temperature, pressure, and humidity at various altitudes. By comparing this data against the standard atmosphere, meteorologists can identify anomalies and better predict weather events such as storms or heatwaves. The Table of Standard Atmosphere provides a baseline against which current conditions can be measured, making it an indispensable tool in weather forecasting.From an engineering perspective, the Table of Standard Atmosphere is fundamental in designing structures and systems that operate in varying atmospheric conditions. For instance, engineers must consider the effects of altitude on the materials used in construction, as well as on the performance of mechanical systems. The table helps engineers account for changes in air pressure and temperature that could impact the structural integrity of buildings, bridges, and other infrastructures.Moreover, the Table of Standard Atmosphere plays a significant role in environmental science. Researchers studying climate change and its effects on the atmosphere often refer to the standard atmosphere to establish baselines for their studies. By understanding how the atmosphere behaves under normal conditions, scientists can better assess the impacts of human activities and natural phenomena on our environment.In conclusion, the Table of Standard Atmosphere is an essential tool across multiple disciplines. Its standardized data allows for accurate analysis and predictions, contributing to advancements in aviation safety, meteorological accuracy, engineering reliability, and environmental research. As we continue to explore and understand our atmosphere, the importance of the Table of Standard Atmosphere will only grow, highlighting the need for ongoing education and awareness in this area. Whether one is a pilot, a meteorologist, an engineer, or a researcher, familiarity with the Table of Standard Atmosphere is invaluable in navigating the complexities of our ever-changing atmosphere.

“标准大气表”这一概念在气象学、航空和工程等多个领域中至关重要。它提供了不同高度下的大气条件的标准化数据，这对于多种应用至关重要。“标准大气表”为科学家和工程师提供了一个参考点，以了解随着高度变化的大气压力、温度、密度及其他参数。这些信息对于设计飞机、预测天气模式和进行科学研究都是必不可少的。例如，在航空领域，飞行员依赖于“标准大气表”来确定他们的飞机在不同飞行高度下的性能。该表列出了空气密度随高度降低的情况，这影响了升力、阻力和发动机性能。了解这些变化有助于飞行员就起飞、巡航高度和着陆方式做出明智的决定。如果没有“标准大气表”，飞行员在确保安全和高效飞行方面将面临重大挑战。气象学家也利用“标准大气表”来准确解释天气数据。例如，气象气球被发射以收集不同高度的温度、压力和湿度数据。通过将这些数据与标准大气进行比较，气象学家可以识别异常情况，从而更好地预测天气事件，如风暴或热浪。“标准大气表”提供了一个基准，可以用来衡量当前的条件，使其成为天气预报中不可或缺的工具。从工程的角度来看，“标准大气表”在设计在不同大气条件下运行的结构和系统时是基础性的。例如，工程师必须考虑高度对建筑材料的影响，以及对机械系统性能的影响。该表帮助工程师考虑空气压力和温度变化可能对建筑物、桥梁和其他基础设施的结构完整性产生的影响。此外，“标准大气表”在环境科学中也发挥着重要作用。研究气候变化及其对大气影响的研究人员通常参考标准大气表，以建立研究的基准。通过了解大气在正常条件下的行为，科学家可以更好地评估人类活动和自然现象对我们环境的影响。总之，“标准大气表”是多个学科中的一个重要工具。其标准化的数据允许进行准确的分析和预测，为航空安全、气象准确性、工程可靠性和环境研究的进步做出了贡献。随着我们继续探索和理解我们的气候，标准大气表的重要性只会增加，突显出在这一领域持续教育和意识提升的必要性。无论是飞行员、气象学家、工程师还是研究人员，熟悉“标准大气表”在应对我们不断变化的大气的复杂性中都是无价的。