true altitude above the rational horizon

简明释义

地心真高度

英英释义

例句

1.Understanding the true altitude above the rational horizon is crucial for accurate navigation in aviation.

理解真实高度相对于理性地平线对航空导航的准确性至关重要。

2.Meteorologists often rely on the true altitude above the rational horizon when forecasting weather patterns.

气象学家在预测天气模式时常常依赖于真实高度相对于理性地平线。

3.The aircraft's instruments display the true altitude above the rational horizon for better situational awareness.

飞机的仪器显示真实高度相对于理性地平线以提高情境意识。

4.The pilot calculated the true altitude above the rational horizon to ensure a safe ascent during the flight.

飞行员计算了真实高度相对于理性地平线以确保安全起飞。

5.In mountain flying, knowing the true altitude above the rational horizon helps avoid terrain conflicts.

在山区飞行中，了解真实高度相对于理性地平线有助于避免地形冲突。

作文

Understanding the concept of true altitude above the rational horizon is essential in various fields, especially in aviation and navigation. The term refers to the actual height of an object or point in the atmosphere relative to a theoretical horizon that is assumed to be flat and level. This concept is crucial for pilots and navigators as it helps them determine their exact position in relation to the Earth's surface. A clear understanding of true altitude above the rational horizon allows for safer and more efficient travel, as it provides accurate information regarding altitude and distance from the ground.In aviation, the true altitude above the rational horizon plays a significant role in flight safety. Pilots must know their altitude to avoid obstacles such as mountains and buildings. When flying at high altitudes, the curvature of the Earth must also be considered, as it affects visibility and navigation. The rational horizon is a simplified model that assumes a flat Earth, which helps pilots make quick calculations. However, the true altitude is what they must rely on to ensure they are flying safely above the terrain.Moreover, in navigation, understanding the true altitude above the rational horizon is vital for accurate positioning. Navigators use various tools and technologies, including GPS, to determine their altitude. Knowing the true altitude enables them to adjust their course and avoid potential hazards. For instance, if a ship is navigating through foggy conditions, understanding its true altitude above the rational horizon can help the captain make informed decisions about the vessel's path.In addition to aviation and navigation, the concept of true altitude above the rational horizon also applies to other fields such as meteorology and environmental science. Weather balloons, for example, measure atmospheric conditions at different altitudes. Scientists must account for the true altitude when analyzing data collected from these instruments. Understanding the relationship between altitude and atmospheric pressure, temperature, and humidity is crucial for accurate weather forecasting and climate studies.Furthermore, the true altitude above the rational horizon has implications for space exploration. As spacecraft ascend through the atmosphere, they must navigate through various layers of air, each with different characteristics. Knowing the true altitude helps astronauts and mission control teams manage the spacecraft's trajectory and ensure safe entry and exit from the Earth's atmosphere.In conclusion, the phrase true altitude above the rational horizon encompasses a critical aspect of understanding altitude in relation to a flat horizon. It is a concept that is not only relevant in aviation and navigation but also extends to meteorology and space exploration. By grasping this idea, professionals in these fields can enhance safety, improve accuracy, and make better-informed decisions. As technology continues to advance, the importance of understanding true altitude will only grow, ensuring that we can navigate our world and beyond with confidence and precision.

理解真实高度相对于理性地平线的概念在各个领域都是至关重要的，尤其是在航空和导航中。该术语指的是一个物体或点在大气中的实际高度，相对于一个假设为平坦和水平的理论地平线。这个概念对飞行员和导航员至关重要，因为它帮助他们确定自己相对于地球表面的确切位置。对真实高度相对于理性地平线的清晰理解使得旅行更加安全和高效，因为它提供了关于高度和与地面距离的准确信息。在航空中，真实高度相对于理性地平线在飞行安全中扮演着重要角色。飞行员必须知道他们的高度，以避免如山脉和建筑物等障碍物。当在高空飞行时，地球的曲率也必须考虑，因为它影响可见性和导航。理性地平线是一个简化模型，假定地球是平的，这帮助飞行员进行快速计算。然而，真实高度是他们必须依赖以确保安全飞行在地形之上的。此外，在导航中，理解真实高度相对于理性地平线对准确定位至关重要。导航员使用各种工具和技术，包括GPS，来确定他们的高度。了解真实高度使他们能够调整航向，避免潜在的危险。例如，如果一艘船在雾霭弥漫的条件下航行，理解其真实高度相对于理性地平线可以帮助船长做出有关航道的明智决策。除了航空和导航，真实高度相对于理性地平线的概念还适用于气象学和环境科学等其他领域。例如，气象气球测量不同高度的气象条件。科学家在分析这些仪器收集的数据时必须考虑真实高度。理解高度与大气压力、温度和湿度之间的关系对于准确的天气预报和气候研究至关重要。此外，真实高度相对于理性地平线对太空探索也有影响。当航天器穿越大气层时，必须在不同的空气层中导航，每一层都有不同的特征。了解真实高度帮助宇航员和任务控制团队管理航天器的轨迹，确保安全进入和退出地球大气层。总之，短语真实高度相对于理性地平线涵盖了理解高度相对于平坦地平线的重要方面。这是一个不仅在航空和导航中相关的概念，还扩展到气象学和太空探索。通过掌握这个想法，这些领域的专业人士可以增强安全性，提高准确性，并做出更明智的决策。随着技术的不断进步，理解真实高度的重要性只会增加，确保我们能够自信和精确地导航我们的世界及其之外。