maneuvering characteristics

简明释义

机动性能

英英释义

例句

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

飞行员对飞机的操纵特性印象深刻，这使得快速转弯和灵活反应成为可能。

2.The maneuvering characteristics of the racing car were enhanced with a new aerodynamic design.

赛车的操纵特性通过新的空气动力学设计得到了增强。

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

在测试飞行中，工程师们评估了新无人机的操纵特性。

4.We conducted simulations to understand the maneuvering characteristics of the submarine in various conditions.

我们进行了模拟，以了解潜艇在各种条件下的操纵特性。

5.The maneuvering characteristics of this vehicle make it ideal for off-road adventures.

该车辆的操纵特性使其非常适合越野冒险。

作文

The term maneuvering characteristics refers to the specific traits or behaviors of a vehicle, aircraft, or vessel when it is in motion and being controlled by an operator. Understanding these characteristics is crucial for ensuring safe and effective navigation, especially in complex environments. For instance, in aviation, the maneuvering characteristics of an aircraft can determine how well it can perform various flight maneuvers, such as turns, climbs, and descents. Pilots must be trained to recognize and respond to these characteristics to maintain control and avoid dangerous situations.In marine contexts, the maneuvering characteristics of a ship can significantly impact its ability to navigate through narrow channels or busy ports. Factors such as the size, weight, and design of the vessel all contribute to its maneuvering characteristics. A larger ship may have slower response times and require more space to turn compared to a smaller vessel, which can pivot more quickly. This is why maritime training emphasizes understanding these characteristics to prevent collisions and ensure safe docking procedures.Moreover, the maneuvering characteristics are not solely determined by the physical attributes of the vehicle but also by external factors like weather conditions, water currents, and atmospheric pressure. For example, strong winds can affect the maneuvering characteristics of an aircraft, making it harder to maintain a steady course. Similarly, in boating, rough waters can alter how a vessel responds to steering commands. Therefore, operators must be aware of these external influences and adjust their techniques accordingly.In the automotive industry, engineers conduct extensive testing to analyze the maneuvering characteristics of new vehicles. This involves evaluating how a car handles during sharp turns, sudden stops, and high-speed driving. The findings help manufacturers improve safety features and overall performance. For drivers, understanding their vehicle's maneuvering characteristics can enhance their driving experience, allowing them to make better decisions on the road.Furthermore, advancements in technology have led to the development of systems that can assist with understanding and improving maneuvering characteristics. For instance, modern aircraft are equipped with sophisticated avionics that provide real-time data on performance metrics, helping pilots make informed decisions. Similarly, cars now come with features like stability control and advanced steering systems that enhance their maneuvering characteristics, making them easier and safer to drive.In conclusion, the concept of maneuvering characteristics is vital across various modes of transportation. Whether in the air, on water, or on land, understanding these characteristics allows operators to navigate safely and efficiently. Continuous research and development in this field will undoubtedly lead to improvements that enhance the maneuvering characteristics of vehicles, ultimately contributing to safer transportation for everyone. As we advance into the future, the integration of technology will play an essential role in refining these characteristics, ensuring that operators can manage their vehicles effectively under all conditions.

术语maneuvering characteristics指的是车辆、飞机或船只在运动中被操作员控制时的特定特征或行为。理解这些特征对于确保安全和有效的导航至关重要，特别是在复杂环境中。例如，在航空领域，飞机的maneuvering characteristics可以决定它在执行各种飞行动作（如转弯、爬升和下降）时的表现。飞行员必须接受培训，以识别和应对这些特征，以保持控制并避免危险情况。在海洋环境中，船只的maneuvering characteristics会显著影响其在狭窄航道或繁忙港口中的导航能力。船只的大小、重量和设计等因素都影响其maneuvering characteristics。与较小的船只相比，较大的船只可能响应较慢，并且需要更多的空间来转弯。这就是为什么海事培训强调理解这些特征，以防止碰撞并确保安全的停靠程序。此外，maneuvering characteristics不仅由车辆的物理属性决定，还受到天气条件、水流和气压等外部因素的影响。例如，强风可能会影响飞机的maneuvering characteristics，使其更难保持稳定的航向。同样，在航海中，波涛汹涌的水域可能会改变船只对操控命令的反应。因此，操作员必须意识到这些外部影响，并相应调整他们的技术。在汽车行业，工程师进行广泛的测试，以分析新车辆的maneuvering characteristics。这涉及评估汽车在急转弯、突然刹车和高速驾驶时的表现。研究结果帮助制造商改善安全功能和整体性能。对于驾驶者而言，理解自己车辆的maneuvering characteristics可以提升驾驶体验，使他们在道路上做出更好的决策。此外，技术的进步导致开发出可以帮助理解和改善maneuvering characteristics的系统。例如，现代飞机配备了先进的航空电子设备，提供实时性能指标数据，帮助飞行员做出明智的决策。同样，汽车现在配备了稳定性控制和先进的转向系统等功能，这些功能增强了它们的maneuvering characteristics，使其更易于驾驶且更安全。总之，maneuvering characteristics的概念在各种交通方式中至关重要。无论是在空中、水上还是陆地，理解这些特征使操作员能够安全高效地导航。该领域的持续研究和发展无疑会带来改进，从而增强车辆的maneuvering characteristics，最终为每个人提供更安全的交通。随着我们迈向未来，技术的整合将在完善这些特征方面发挥至关重要的作用，确保操作员能够在各种条件下有效管理他们的车辆。