maneuvering characteristics

简明释义

同上

英英释义

例句

1.The maneuvering characteristics of the helicopter were crucial for performing search and rescue missions in urban areas.

直升机的机动特性对于在城市地区执行搜救任务至关重要。

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

飞行员对飞机的机动特性印象深刻，这使得快速转弯和顺畅上升成为可能。

3.During the test flight, engineers evaluated the maneuvering characteristics of the new drone under various conditions.

在测试飞行中，工程师评估了新型无人机在各种条件下的机动特性。

4.Naval architects often study the maneuvering characteristics of ships to ensure safety and efficiency.

船舶建筑师经常研究船只的机动特性以确保安全和效率。

5.The maneuvering characteristics of the racing car were a key factor in its performance on the track.

赛车的机动特性是其在赛道上表现的关键因素。

作文

The term maneuvering characteristics refers to the specific behaviors and performance of a vehicle, particularly in terms of how it responds to control inputs during various operational scenarios. These characteristics are crucial for ensuring safety and efficiency in both aviation and maritime contexts. For instance, in aviation, the maneuvering characteristics of an aircraft dictate how well it can handle sharp turns, rapid ascents, or descents, and its stability during turbulence. Pilots must understand these characteristics to execute safe and effective maneuvers, especially in critical situations such as emergency landings or evasive actions. Similarly, in naval operations, the maneuvering characteristics of a ship determine its ability to navigate through tight spaces, respond to changing weather conditions, and maintain course under various sea states.Understanding the maneuvering characteristics of a vehicle is not only essential for operators but also for designers and engineers. When developing new aircraft or ships, engineers conduct extensive testing to assess their maneuvering characteristics. This testing often involves simulations and real-world trials that evaluate how the vehicle behaves under different conditions. Factors such as weight distribution, wing design in aircraft, and hull shape in ships play significant roles in these characteristics. By analyzing the data collected from these tests, engineers can make informed decisions to enhance performance, improve safety, and ensure compliance with regulatory standards.Moreover, the maneuvering characteristics of a vehicle can significantly impact its operational capabilities. For example, military aircraft are designed with specific maneuvering characteristics to allow for agility and speed, enabling them to evade enemy fire and perform complex aerial maneuvers. On the other hand, commercial airliners prioritize stability and fuel efficiency over extreme agility, reflecting the different operational needs of these aircraft. In maritime contexts, naval vessels may be designed for stealth and quick maneuverability, allowing them to operate effectively in combat scenarios, while cargo ships focus on stability and cargo capacity.In conclusion, the maneuvering characteristics of vehicles are vital for their performance, safety, and effectiveness in various applications. Whether in the sky or at sea, understanding these characteristics enables pilots and captains to make informed decisions, enhances vehicle design, and ultimately contributes to successful operations. As technology continues to advance, the study of maneuvering characteristics will remain a key area of focus in the fields of aviation and maritime engineering, ensuring that vehicles can meet the evolving demands of their respective environments.

术语maneuvering characteristics指的是车辆的特定行为和性能，特别是在各种操作场景中其对控制输入的响应。这些特性对于确保航空和海事环境中的安全性和效率至关重要。例如，在航空领域，飞机的maneuvering characteristics决定了它在急转弯、快速上升或下降以及在颠簸期间的稳定性。飞行员必须理解这些特性，以便在关键情况下如紧急着陆或规避行动中执行安全有效的机动。同样，在海军操作中，船只的maneuvering characteristics决定了其在狭窄空间内航行、应对变化天气条件和在不同海况下保持航向的能力。了解车辆的maneuvering characteristics不仅对操作人员至关重要，对设计师和工程师也是如此。在开发新飞机或船只时，工程师会进行广泛测试以评估其maneuvering characteristics。这种测试通常涉及模拟和实际试验，评估车辆在不同条件下的表现。重量分布、飞机的机翼设计和船只的船体形状等因素在这些特性中起着重要作用。通过分析从这些测试中收集的数据，工程师可以做出明智的决策，以增强性能、提高安全性并确保符合监管标准。此外，车辆的maneuvering characteristics会显著影响其操作能力。例如，军用飞机设计具有特定的maneuvering characteristics，以允许敏捷性和速度，使其能够躲避敌方火力并执行复杂的空中机动。另一方面，商业客机优先考虑稳定性和燃油效率，而不是极端敏捷性，反映了这些飞机的不同操作需求。在海事环境中，海军舰艇可能设计为隐蔽和快速机动，使其能够有效地在战斗场景中操作，而货船则专注于稳定性和货物容量。总之，车辆的maneuvering characteristics对其性能、安全性和在各种应用中的有效性至关重要。无论是在天空还是海洋，理解这些特性使飞行员和船长能够做出明智的决策，增强车辆设计，并最终促进成功的操作。随着技术的不断进步，maneuvering characteristics的研究将继续成为航空和海事工程领域的重点领域，确保车辆能够满足各自环境不断变化的需求。