tabulated altitude

简明释义

表列高度

英英释义

例句

1.During the flight, the co-pilot referred to the tabulated altitude data for accurate navigation.

在飞行过程中，副驾驶参考了表格化的高度数据以确保准确导航。

2.The tabulated altitude of the terrain was crucial for planning the helicopter's route.

地形的表格化的高度对于规划直升机的航线至关重要。

3.The weather report included a tabulated altitude chart for pilots to assess turbulence levels.

天气报告中包含了一个表格化的高度图表，供飞行员评估空气湍流水平。

4.The pilot checked the tabulated altitude before takeoff to ensure safe clearance of the mountains.

在起飞前，飞行员检查了表格化的高度以确保安全越过山脉。

5.In mountain flying, understanding the tabulated altitude is essential for safety.

在山区飞行中，理解表格化的高度对于安全至关重要。

作文

In the field of aviation and meteorology, understanding altitude is crucial for various applications. One term that often comes up in these discussions is tabulated altitude, which refers to a systematic arrangement of altitude data presented in a table format. This method allows pilots, meteorologists, and researchers to easily access and interpret critical information regarding elevation levels across different geographical locations or flight paths. The significance of tabulated altitude becomes evident when we consider its applications in flight planning and weather forecasting.For pilots, having access to tabulated altitude data can be a game changer. When preparing for a flight, they need to know the altitude of their intended route, including any potential obstacles such as mountains or tall buildings. By consulting a tabulated altitude chart, pilots can identify safe cruising altitudes and plan their ascent and descent accordingly. This data is especially important when flying in mountainous regions where terrain can vary significantly over short distances. Without this information, pilots might inadvertently endanger their aircraft and passengers due to insufficient clearance from high ground.In addition to aviation safety, tabulated altitude is also vital for meteorologists who study atmospheric conditions. Weather patterns can change dramatically with altitude; therefore, having a clear understanding of how temperature, pressure, and humidity vary at different elevations is essential. Meteorologists often rely on tabulated altitude data to create accurate weather models and forecasts. For instance, certain weather phenomena, like thunderstorms, are more likely to develop at specific altitudes. By analyzing tabulated altitude data, meteorologists can predict where and when these storms might occur, allowing for timely warnings to be issued to the public.Moreover, tabulated altitude is not limited to aviation and meteorology. It also plays a significant role in environmental science and geography. Researchers studying ecosystems often need to consider how altitude affects biodiversity. Different species thrive at different elevations, and by utilizing tabulated altitude data, scientists can better understand the distribution of flora and fauna in relation to elevation changes. This information can be critical for conservation efforts, as it helps identify areas that may be vulnerable to climate change or habitat destruction.The importance of tabulated altitude extends beyond just practical applications; it also enhances our understanding of the Earth’s atmosphere. For example, atmospheric scientists use tabulated altitude data to study air quality and pollution dispersion. By knowing the altitude at which pollutants are released, they can model how these substances travel through the atmosphere and impact air quality at ground level. This research is crucial for developing effective regulations and policies aimed at improving air quality and protecting public health.In conclusion, tabulated altitude is a fundamental concept that serves multiple disciplines, including aviation, meteorology, environmental science, and geography. Its systematic presentation of altitude data in a tabular format allows for easier access and interpretation, ultimately contributing to safer flights, more accurate weather forecasts, and a deeper understanding of our planet’s ecosystems. As technology continues to advance, the methods for collecting and presenting tabulated altitude data will likely improve, further enhancing our ability to analyze and respond to the challenges posed by altitude-related factors in various fields.

在航空和气象领域，了解海拔高度对各种应用至关重要。一个经常出现的术语是表格化高度，它指的是以表格格式呈现的海拔数据的系统排列。这种方法使飞行员、气象学家和研究人员能够轻松访问和解读有关不同地理位置或飞行路径上的海拔水平的关键信息。考虑到表格化高度在飞行计划和天气预报中的应用，这一术语的重要性变得显而易见。对于飞行员来说，获取表格化高度数据可能会改变游戏规则。在准备飞行时，他们需要知道预定航线的高度，包括任何潜在障碍，如山脉或高楼大厦。通过查阅表格化高度图表，飞行员可以识别安全的巡航高度，并相应地规划他们的上升和下降。这些数据在飞行于山区时尤其重要，因为地形在短距离内可能会显著变化。如果没有这些信息，飞行员可能会不小心使他们的飞机和乘客面临因与高地不足的间隙而带来的危险。除了航空安全，表格化高度对气象学家研究大气条件也至关重要。天气模式在不同海拔高度上可能会发生剧烈变化，因此，清楚了解温度、压力和湿度如何随高度变化是必不可少的。气象学家通常依赖表格化高度数据来创建准确的天气模型和预测。例如，某些天气现象，如雷暴，更可能在特定高度发展。通过分析表格化高度数据，气象学家可以预测这些风暴可能发生的地点和时间，从而及时向公众发出警报。此外，表格化高度不仅限于航空和气象。它在环境科学和地理学中也发挥着重要作用。研究生态系统的研究人员通常需要考虑海拔如何影响生物多样性。不同物种在不同海拔高度上繁衍生息，通过利用表格化高度数据，科学家可以更好地理解植物和动物在海拔变化中的分布。这些信息对保护工作至关重要，因为它有助于识别可能受到气候变化或栖息地破坏威胁的区域。表格化高度的重要性不仅仅局限于实际应用；它还增强了我们对地球大气的理解。例如，大气科学家使用表格化高度数据研究空气质量和污染扩散。通过了解污染物释放的高度，他们可以模拟这些物质如何在大气中传播并影响地面空气质量。这项研究对制定有效的法规和政策以改善空气质量和保护公共健康至关重要。总之，表格化高度是一个基本概念，服务于多个学科，包括航空、气象、环境科学和地理。它以表格格式系统呈现海拔数据，使得更容易访问和解读，最终促进了更安全的飞行、更准确的天气预报以及对我们星球生态系统的更深入理解。随着技术的不断进步，收集和呈现表格化高度数据的方法可能会得到改善，进一步增强我们分析和应对各领域海拔相关因素所带来的挑战的能力。