manoeuvrability

简明释义

英[məˌnuːvərəˈbɪləti]美[məˌnuːvərəˈbɪləti]

n. 机动性；可移动；操纵的灵敏性

英英释义

单词用法

同义词

反义词

例句

1.The Yak-3 airframe was created as light as possible to save weight and gain more speed and manoeuvrability.

为了增加速度和机动性，雅克3的机身被设计得尽可能轻巧。

2.Extensive changing value calculation for the typical hydrodynamic coefficients are carried out and the results would provide a basis for further study of submarine manoeuvrability.

本文还对典型的水动力系数进行了大量的变值计算，为进一步进行潜艇操纵性的研究提供了依据。

3.They may also acquire "hyper-manoeuvrability".

与此同时它们也会获得超高机动性。

4.The power pack"pulls" the wheelchair forwards, which both extends the lifetime of the chair and improves its manoeuvrability.

电源包“拉”的轮椅前进，这既延长了椅子的寿命和提高其可操作性。

5.In this paper the resistance, propulsive performance, seakeeping quality, manoeuvrability and economical criterion of a shallow draught vessel are calculated and analysed.

本文计算分析了浅吃水船的阻力、推进性能、适航性、操纵性及综合经济性后，给出了供方案探讨时选择主尺度方案的简便图谱。

6.Tight turning radius ensuring an excellent manoeuvrability.

紧凑的旋转半径提供了极好的机动性。

7.Featuring greater manoeuvrability than any boat and extremely shallow drafts, they set the standards for the personal watercraft of the future.

具有更大的机动性比任何船和极浅草稿，他们为未来的个人船舶的标准。

8.A boat's manoeuvrability can greatly affect its performance in rough waters.

船只的机动性会极大影响其在波涛汹涌的水域中的表现。

9.The new sports car has exceptional manoeuvrability, allowing it to navigate tight corners with ease.

这款新跑车具有卓越的机动性，能够轻松应对狭窄的弯道。

10.The athlete's training focused on improving her manoeuvrability on the field.

这位运动员的训练专注于提高她在场上的机动性。

11.The drone's manoeuvrability makes it ideal for capturing aerial footage in crowded spaces.

这款无人机的机动性使其非常适合在拥挤的空间中拍摄空中镜头。

12.In military operations, manoeuvrability is crucial for the success of ground troops.

在军事行动中，机动性对地面部队的成功至关重要。

作文

In the world of transportation and engineering, one term that often comes up is manoeuvrability. This word refers to the ability of a vehicle or object to change direction quickly and easily. The concept of manoeuvrability is crucial in various fields, from military applications to everyday vehicles like cars and bicycles. Understanding manoeuvrability not only enhances our appreciation of technology but also informs our choices as consumers.For instance, in the automotive industry, the manoeuvrability of a car can significantly affect its performance and safety. A vehicle with high manoeuvrability can navigate tight turns and avoid obstacles more effectively than one that is less agile. This is particularly important in urban environments where space is limited, and quick reflexes are required to respond to sudden changes in traffic conditions. Car manufacturers often highlight the manoeuvrability of their models in advertisements, showcasing features like responsive steering and compact design.In contrast, larger vehicles such as trucks and buses may sacrifice some level of manoeuvrability for stability and load capacity. While these vehicles are essential for transporting goods and people, their size can make them more challenging to maneuver in tight spaces. This trade-off between manoeuvrability and stability is a critical consideration for fleet managers and drivers who must operate these vehicles in various conditions.The importance of manoeuvrability extends beyond personal and commercial vehicles. In the military, the manoeuvrability of tanks and armored vehicles can determine the success of operations. Vehicles designed for combat must be able to move swiftly across varied terrains while maintaining the ability to engage targets effectively. As a result, military engineers invest significant resources into enhancing the manoeuvrability of their equipment, ensuring that troops can adapt to changing battlefield conditions.Moreover, the concept of manoeuvrability is not limited to vehicles alone. It can also apply to other areas, such as robotics and drones. For example, a drone's manoeuvrability is vital for its ability to navigate complex environments and perform tasks like surveillance or delivery. Engineers focus on improving the manoeuvrability of drones by optimizing their design and control systems, allowing for greater precision and flexibility in operation.In conclusion, manoeuvrability is a fundamental aspect of design and functionality in various fields, including automotive, military, and robotics. Its significance cannot be overstated, as it impacts safety, efficiency, and overall performance. As technology continues to evolve, the quest for enhanced manoeuvrability will remain a priority for engineers and designers alike, ultimately benefiting consumers and society as a whole. Understanding this concept helps us appreciate the complexities behind the machines we use every day and encourages us to consider manoeuvrability when making choices about transportation and technology.

在交通和工程的世界中，一个经常出现的术语是机动性。这个词指的是车辆或物体快速、轻松地改变方向的能力。机动性的概念在多个领域至关重要，从军事应用到日常车辆如汽车和自行车。理解机动性不仅增强了我们对技术的欣赏，还为我们作为消费者的选择提供了信息。例如，在汽车工业中，汽车的机动性可以显著影响其性能和安全性。一辆具有高机动性的车辆能够更有效地在狭窄的转弯和障碍物之间穿行。这在城市环境中特别重要，因为空间有限，需要快速反应以应对突发的交通状况。汽车制造商通常在广告中强调其车型的机动性，展示响应灵敏的转向和紧凑的设计等特点。相比之下，较大的车辆，如卡车和公共汽车，可能会为了稳定性和载重能力而牺牲一些机动性。虽然这些车辆对于运输货物和人员至关重要，但它们的体积可能使其在狭小空间内的操控更加困难。机动性与稳定性之间的这种权衡是车队管理者和驾驶员在不同条件下操作这些车辆时需要考虑的关键因素。机动性的重要性不仅限于个人和商业车辆。在军事上，坦克和装甲车辆的机动性可以决定作战的成功。为战斗设计的车辆必须能够在各种地形上迅速移动，同时保持有效打击目标的能力。因此，军事工程师投入大量资源来提高他们设备的机动性，确保部队能够适应变化的战场条件。此外，机动性的概念并不限于车辆。它还可以应用于其他领域，如机器人和无人机。例如，无人机的机动性对于其在复杂环境中导航和执行监视或交付任务的能力至关重要。工程师通过优化无人机的设计和控制系统，专注于提高其机动性，从而实现更高的精确度和灵活性。总之，机动性是设计和功能在多个领域（包括汽车、军事和机器人）中的基本方面。其重要性不容小觑，因为它影响着安全性、效率和整体性能。随着技术的不断发展，提高机动性的追求将继续成为工程师和设计师的优先事项，最终使消费者和整个社会受益。理解这一概念有助于我们欣赏我们每天使用的机器背后的复杂性，并鼓励我们在选择交通和技术时考虑机动性。