altitude intercept

简明释义

高度差截距天文位置线)截距

英英释义

例句

1.During the training session, the instructor emphasized the importance of altitude intercept 高度拦截 for maintaining optimal flight levels.

在训练课程中，教练强调了保持最佳飞行高度时高度拦截的重要性。

2.The pilot adjusted the flight path to ensure a safe altitude intercept 高度拦截 during the descent.

飞行员调整了航线，以确保在下降过程中安全的高度拦截。

3.In adverse weather conditions, the altitude intercept 高度拦截 can be challenging to achieve safely.

在恶劣天气条件下，安全实现高度拦截可能会很有挑战性。

4.The aircraft's autopilot system is designed to manage altitude intercept 高度拦截 automatically.

飞机的自动驾驶系统设计为能够自动管理高度拦截。

5.The flight plan included a specific altitude intercept 高度拦截 point for the approach phase.

飞行计划中包括了一个特定的高度拦截点用于进近阶段。

作文

In the field of aviation and aerodynamics, understanding the concept of altitude intercept is crucial for pilots and engineers alike. The term refers to the specific point at which an aircraft reaches a predetermined altitude during its ascent or descent. This concept is not only fundamental for ensuring safety but also plays a significant role in optimizing flight paths and fuel efficiency. When planning a flight, pilots must calculate various factors, including airspeed, weight, and weather conditions, to determine the most efficient route. The altitude intercept becomes a key parameter in this calculation, as it dictates when the aircraft should begin its climb or descent to reach the desired cruising altitude.The importance of altitude intercept can be illustrated through the process of takeoff and landing. During takeoff, pilots aim to achieve a specific altitude at a certain point along the runway. This is essential for clearing obstacles and ensuring a safe ascent. Similarly, during landing, the altitude intercept helps pilots establish a stable approach path, allowing them to align with the runway and touch down safely. Without a clear understanding of where to intercept these altitudes, the risk of accidents increases significantly.Moreover, the altitude intercept is not limited to just commercial aviation; it is equally relevant in military operations and space exploration. For instance, fighter pilots must maintain precise control over their altitude intercepts during maneuvers to avoid enemy fire and to engage targets effectively. In space missions, achieving the correct altitude intercept is vital for spacecraft re-entry, as it determines the trajectory and speed needed to safely return to Earth.In addition to its practical applications, the concept of altitude intercept also serves as a fascinating example of how mathematics and physics intersect in real-world scenarios. Engineers use complex algorithms and simulations to predict the optimal altitude intercept, taking into account variables such as atmospheric pressure, temperature, and wind patterns. These calculations are essential for designing aircraft that can efficiently navigate through different altitudes while maintaining performance and safety.Furthermore, advancements in technology have led to the development of sophisticated navigation systems that assist pilots in determining their altitude intercept. Modern aircraft are equipped with instruments that provide real-time data on altitude, speed, and trajectory, helping pilots make informed decisions during flight. This integration of technology not only enhances safety but also contributes to more efficient flight operations, reducing fuel consumption and minimizing environmental impact.In conclusion, the concept of altitude intercept is a vital aspect of aviation that encompasses both theoretical knowledge and practical application. It plays a critical role in ensuring the safety and efficiency of flights, whether in commercial aviation, military operations, or space exploration. As technology continues to evolve, our understanding and utilization of altitude intercept will likely become even more refined, paving the way for safer and more efficient air travel in the future.

在航空和空气动力学领域，理解“altitude intercept”这一概念对于飞行员和工程师来说至关重要。这个术语指的是飞机在上升或下降过程中达到预定高度的特定点。这个概念不仅对确保安全至关重要，而且在优化飞行路径和燃油效率方面也发挥着重要作用。在计划飞行时，飞行员必须计算各种因素，包括空速、重量和天气条件，以确定最有效的航线。“altitude intercept”成为这一计算中的关键参数，因为它决定了飞机何时应开始爬升或下降以达到所需的巡航高度。“altitude intercept”的重要性可以通过起飞和着陆的过程来说明。在起飞过程中，飞行员旨在沿跑道的某一点达到特定高度。这对于越过障碍物和确保安全上升至关重要。同样，在着陆过程中，“altitude intercept”帮助飞行员建立稳定的进场路径，使他们能够与跑道对齐并安全降落。如果没有清晰的理解何时拦截这些高度，事故的风险将显著增加。此外，“altitude intercept”不仅限于商业航空；在军事行动和太空探索中同样相关。例如，战斗机飞行员在机动过程中必须精确控制其高度拦截，以避免敌方火力并有效地打击目标。在太空任务中，实现正确的“altitude intercept”对于航天器重新进入至关重要，因为它决定了安全返回地球所需的轨道和速度。除了其实际应用外，“altitude intercept”的概念还作为一个迷人的例子，展示了数学和物理如何在现实场景中交叉。工程师使用复杂的算法和模拟来预测最佳的“altitude intercept”，考虑大气压力、温度和风向等变量。这些计算对于设计能够高效穿越不同高度的飞机，同时保持性能和安全性至关重要。此外，技术的进步导致开发出复杂的导航系统，帮助飞行员确定他们的“altitude intercept”。现代飞机配备了提供实时数据的仪器，包括高度、速度和轨迹，帮助飞行员在飞行过程中做出明智的决策。这种技术的整合不仅增强了安全性，还促进了更高效的飞行操作，减少了燃料消耗，并最小化了对环境的影响。总之，“altitude intercept”的概念是航空的一个重要方面，涵盖了理论知识和实际应用。它在确保飞行安全和效率方面发挥着关键作用，无论是在商业航空、军事行动还是太空探索中。随着技术的不断发展，我们对“altitude intercept”的理解和利用可能会变得更加精细，为未来更安全、更高效的空中旅行铺平道路。