maneuvering characteristics

简明释义

操纵性能

英英释义

例句

1.When selecting a drone, consider its maneuvering characteristics to ensure it meets your operational needs.

在选择无人机时，考虑其机动特性以确保满足您的操作需求。

2.The pilot was impressed by the aircraft's maneuvering characteristics, which allowed for smooth turns and quick responses.

飞行员对飞机的机动特性印象深刻，这使得转弯平稳且反应迅速。

3.In naval operations, understanding a ship's maneuvering characteristics is crucial for effective navigation in tight waters.

在海军行动中，了解船只的机动特性对于在狭窄水域内有效导航至关重要。

4.The flight simulator features realistic maneuvering characteristics that help pilots train for different scenarios.

飞行模拟器具有逼真的机动特性，帮助飞行员训练不同的场景。

5.The racing team conducted tests to evaluate the car's maneuvering characteristics under various track conditions.

赛车队进行了测试，以评估汽车在各种赛道条件下的机动特性。

作文

In the world of aviation and maritime navigation, the term maneuvering characteristics refers to the specific behaviors and performance traits of an aircraft or a vessel when it is being controlled or maneuvered. Understanding these traits is crucial for pilots and navigators as they directly impact safety and operational efficiency. The maneuvering characteristics encompass a range of factors including stability, control responsiveness, turning radius, and the ability to handle unexpected situations or emergencies.When designing an aircraft, engineers spend considerable time analyzing its maneuvering characteristics. For instance, a fighter jet requires exceptional agility and rapid response to control inputs, allowing it to perform complex maneuvers during combat. In contrast, a commercial airliner prioritizes stability and ease of handling over extreme agility, ensuring that passengers experience a smooth flight. Thus, the maneuvering characteristics of each type of aircraft are tailored to meet its intended use.Similarly, in maritime contexts, the maneuvering characteristics of a ship can determine how effectively it can navigate through congested waters or respond to sudden changes in weather. A small boat may have nimble maneuvering characteristics, allowing it to make sharp turns and quickly change direction, which is essential for avoiding obstacles in tight spaces. On the other hand, large cargo ships have different maneuvering characteristics due to their size and weight, requiring longer distances to turn and stop safely.One critical aspect of maneuvering characteristics is the concept of stability. An aircraft or vessel must maintain balance and control throughout its operations. For example, an aircraft with poor stability may become difficult to control during turbulence, leading to dangerous situations. Pilots rely on their understanding of the aircraft's maneuvering characteristics to anticipate how it will react under various conditions, enabling them to make informed decisions.Another important factor is control responsiveness. This refers to how quickly and accurately a pilot or navigator can influence the direction and speed of the aircraft or vessel. A responsive system allows for precise adjustments, which is vital during critical phases of flight or navigation. The maneuvering characteristics of an aircraft with high control responsiveness enable pilots to execute quick evasive actions if necessary, enhancing overall safety.In emergency situations, understanding the maneuvering characteristics becomes even more vital. For instance, if an aircraft experiences an engine failure, a pilot must know how the aircraft will behave in such a scenario. Will it glide smoothly, or will it require significant effort to maintain control? These considerations are part of the training pilots undergo to ensure they can handle emergencies effectively.In conclusion, the term maneuvering characteristics encapsulates a wide array of performance traits that are essential for the safe and efficient operation of aircraft and vessels. From stability and control responsiveness to the ability to navigate challenging conditions, understanding these characteristics is fundamental for pilots and navigators. As technology continues to advance, the study of maneuvering characteristics will remain a critical area of focus, ensuring that safety and efficiency in aviation and maritime operations are continually improved.

在航空和海洋导航的世界中，术语机动特性指的是飞机或船只在被控制或操纵时的特定行为和性能特征。理解这些特征对飞行员和导航员至关重要，因为它们直接影响安全性和操作效率。机动特性包括一系列因素，如稳定性、控制响应、转弯半径以及应对意外情况或紧急情况的能力。在设计飞机时，工程师花费大量时间分析其机动特性。例如，战斗机需要卓越的灵活性和对控制输入的快速响应，使其能够在战斗中执行复杂的机动。相比之下，商业客机优先考虑稳定性和易于操控，而非极端的灵活性，以确保乘客体验平稳的飞行。因此，每种类型飞机的机动特性都是根据其预期用途量身定制的。同样，在海洋环境中，船只的机动特性可以决定其在拥挤水域中有效导航或应对突发天气变化的能力。一艘小船可能具有灵活的机动特性，允许它进行急转弯并迅速改变方向，这对于在狭窄空间中避免障碍物至关重要。另一方面，大型货船由于其体积和重量，其机动特性则有所不同，转向和安全停车所需的距离更长。机动特性的一个关键方面是稳定性概念。飞机或船只必须在整个操作过程中保持平衡和控制。例如，稳定性差的飞机在颠簸期间可能变得难以控制，从而导致危险情况。飞行员依赖于对飞机机动特性的理解，来预测其在各种条件下的反应，使他们能够做出明智的决策。另一个重要因素是控制响应。这指的是飞行员或导航员影响飞机或船只方向和速度的速度和准确性。响应迅速的系统允许精确调整，这在飞行或导航的关键阶段至关重要。具有高控制响应性的飞机的机动特性使飞行员能够在必要时执行快速的规避动作，从而提高整体安全性。在紧急情况下，理解机动特性变得更加重要。例如，如果飞机发生发动机故障，飞行员必须知道飞机在这种情况下的表现。它会平稳滑行，还是需要大量努力才能保持控制？这些考虑是飞行员接受培训的一部分，以确保他们能够有效应对紧急情况。总之，术语机动特性涵盖了一系列对飞机和船只安全高效操作至关重要的性能特征。从稳定性和控制响应到在挑战性条件下导航的能力，理解这些特性是飞行员和导航员的基本要求。随着技术的不断进步，机动特性的研究将继续成为一个关键领域，确保航空和海洋操作中的安全性和效率不断提升。