correction in altitude

简明释义

高度改正量

英英释义

例句

1.The pilot made a correction in altitude to avoid turbulence during the flight.

飞行员进行了高度修正以避免飞行中的颠簸。

2.The drone operator made a quick correction in altitude to avoid an obstacle.

无人机操作员迅速进行了高度修正以避开障碍物。

3.During the ascent, the aircraft required a correction in altitude to maintain optimal performance.

在上升过程中，飞机需要进行高度修正以保持最佳性能。

4.After the initial takeoff, the control tower requested a correction in altitude for safety reasons.

起飞后，控制塔为了安全原因要求进行高度修正。

5.The GPS system indicated a correction in altitude due to changes in terrain.

GPS系统因地形变化显示出高度修正。

作文

In aviation, the term correction in altitude refers to the adjustments made to an aircraft's altitude during flight. This process is crucial for ensuring safety and efficiency in navigation. Pilots often need to make these corrections due to various factors such as changes in weather conditions, air traffic control instructions, or discrepancies in the altimeter readings. Understanding how to effectively implement a correction in altitude is essential for any pilot, as it directly impacts the flight path and overall safety of the aircraft.When an aircraft is cruising at a specific altitude, it relies on its altimeter to provide accurate readings. However, atmospheric pressure can fluctuate, which may cause the altimeter to display an incorrect altitude. In such cases, pilots must perform a correction in altitude to ensure that they are flying at the intended height. This adjustment is not only about maintaining the correct altitude but also about avoiding potential collisions with other aircraft and ensuring compliance with air traffic regulations.For instance, if a pilot receives a directive from air traffic control to change altitude due to congestion in a particular airspace, they will execute a correction in altitude by adjusting the aircraft's vertical speed and heading. This requires precise calculations and a thorough understanding of the aircraft’s performance capabilities. A successful correction in altitude ensures that the flight remains on course while adhering to safety protocols.Moreover, environmental factors such as turbulence can necessitate a correction in altitude. When flying through turbulent air, the aircraft may experience sudden changes in altitude, which can be unsettling for passengers and crew alike. Pilots are trained to respond to such situations by making real-time corrections to stabilize the aircraft. This adaptability is critical in maintaining passenger comfort and safety.In addition to immediate adjustments, pilots also engage in strategic planning for correction in altitude before takeoff and during the flight. They analyze weather reports, review flight plans, and consider the weight of the aircraft, all of which can influence the optimal cruising altitude. By preparing for potential altitude corrections ahead of time, pilots can minimize disruptions and enhance the overall efficiency of the flight.Furthermore, technology plays a significant role in assisting pilots with correction in altitude. Modern aircraft are equipped with advanced avionics systems that provide real-time data on altitude and other critical flight parameters. These systems help pilots make informed decisions quickly and accurately, reducing the likelihood of human error during altitude adjustments.In conclusion, the concept of correction in altitude is a fundamental aspect of aviation that encompasses a range of practices aimed at maintaining safe and efficient flight operations. Whether responding to external factors like air traffic or internal challenges such as equipment discrepancies, pilots must be adept at making altitude corrections. This skill not only ensures the safety of the flight but also enhances the overall flying experience for everyone on board. As aviation technology continues to advance, the methods and tools available for executing correction in altitude will only improve, further contributing to the safety and efficiency of air travel.

在航空领域，短语correction in altitude指的是在飞行过程中对飞机高度所做的调整。这一过程对于确保导航的安全性和效率至关重要。由于天气条件变化、空中交通管制指令或高度计读数差异等各种因素，飞行员通常需要进行这些调整。有效理解如何实施correction in altitude对于任何飞行员来说都是必不可少的，因为这直接影响到飞行路径和飞机的整体安全。当飞机在特定高度巡航时，它依赖于高度计提供准确的读数。然而，气压可能会波动，这可能导致高度计显示不正确的高度。在这种情况下，飞行员必须进行correction in altitude以确保他们在预定高度飞行。这一调整不仅涉及保持正确的高度，还涉及避免与其他飞机的潜在碰撞，并确保遵守空中交通法规。例如，如果飞行员收到来自空中交通管制的指令，要求因特定空域的拥堵而改变高度，他们将通过调整飞机的垂直速度和航向来执行correction in altitude。这需要精确的计算和对飞机性能能力的全面理解。成功的correction in altitude确保了航班保持在预定航线，同时遵循安全协议。此外，环境因素如湍流也可能需要进行correction in altitude。在飞行穿越湍流空气时，飞机可能会经历高度的突然变化，这对乘客和机组人员来说可能是令人不安的。飞行员接受过应对这种情况的训练，通过实时修正来稳定飞机。这种适应能力对于维持乘客的舒适和安全至关重要。除了即时调整外，飞行员在起飞前和飞行过程中还会进行战略规划，以便进行correction in altitude。他们分析天气报告，审查航班计划，并考虑飞机的重量，这些都可能影响最佳巡航高度。通过提前准备潜在的高度调整，飞行员可以最大限度地减少干扰，提高航班的整体效率。此外，技术在协助飞行员进行correction in altitude方面发挥着重要作用。现代飞机配备了先进的航空电子系统，提供实时的高度和其他关键飞行参数的数据。这些系统帮助飞行员迅速准确地做出明智的决策，减少在高度调整过程中人为错误的可能性。总之，correction in altitude这一概念是航空的一个基本方面，涵盖了一系列旨在维护安全和高效飞行操作的实践。无论是应对空中交通等外部因素，还是应对设备差异等内部挑战，飞行员都必须熟练进行高度调整。这项技能不仅确保了飞行的安全性，也提升了所有乘客的整体飞行体验。随着航空技术的不断进步，用于执行correction in altitude的方法和工具将只会不断改进，进一步促进航空旅行的安全性和效率。