inboard turning

简明释义

内向旋转

英英释义

例句

1.During the race, the driver used inboard turning to navigate the tight corners more effectively.

在比赛中，驾驶员使用向内转弯来更有效地通过紧急弯道。

2.In sailing, inboard turning is crucial when adjusting the sails for optimal speed.

在帆船运动中，向内转弯在调整帆以获得最佳速度时至关重要。

3.The pilot executed an inboard turning maneuver to avoid the approaching storm.

飞行员执行了一个向内转弯的机动，以避开即将来临的风暴。

4.The yacht's inboard turning allowed it to maneuver smoothly in the narrow harbor.

游艇的向内转弯使其能够在狭窄的港口中平稳操控。

5.The ship's captain ordered an inboard turning to avoid a collision with another vessel.

船长下令进行向内转弯以避免与其他船只相撞。

作文

In the world of engineering and design, understanding specific terminologies is crucial for effective communication and collaboration. One such term that often comes up in discussions about vehicle dynamics and aerodynamics is inboard turning. This phrase refers to a maneuver or design feature where a vehicle's wheels or control surfaces rotate inward towards the centerline of the vehicle. The concept of inboard turning can be particularly important in various contexts, including automotive engineering, aircraft design, and even in the realm of robotics.To illustrate the significance of inboard turning, let’s consider its application in the automotive industry. When designing a car, engineers must ensure that the vehicle can navigate tight corners effectively. By incorporating features that allow for inboard turning, vehicles can achieve a smaller turning radius, making them more agile and responsive in urban environments. This is especially beneficial for sports cars and compact vehicles that prioritize handling and maneuverability.Moreover, inboard turning plays a vital role in enhancing safety. When a vehicle can turn more sharply, it reduces the likelihood of accidents during sudden maneuvers. For instance, if a driver needs to avoid an obstacle quickly, a vehicle equipped with inboard turning capabilities can perform this action more effectively than one without such features. This aspect of vehicle design not only improves performance but also contributes to overall road safety.In the aviation sector, inboard turning is equally significant. Aircraft often need to make precise adjustments during takeoff and landing. By utilizing control surfaces that facilitate inboard turning, pilots can execute tighter turns and maintain better control of the aircraft. This ability is particularly crucial in situations where space is limited, such as during approach to busy airports or when navigating through congested airspace.Furthermore, the concept of inboard turning extends beyond traditional vehicles. In robotics, for example, robots designed for specific tasks may need to navigate through confined spaces. By implementing inboard turning mechanisms, these robots can maneuver more efficiently, allowing them to perform their functions effectively in environments that are challenging to navigate.Understanding the mechanics behind inboard turning also opens up discussions about innovation in design. Engineers and designers are continually looking for ways to improve the efficiency and effectiveness of vehicles and machines. By studying the principles of inboard turning, they can develop new technologies that enhance performance, reduce energy consumption, and improve user experience.In conclusion, the term inboard turning encompasses a range of applications across different fields, from automotive to aviation and robotics. Its importance cannot be overstated, as it contributes to improved performance, safety, and maneuverability. As technology continues to advance, the principles associated with inboard turning will likely evolve, leading to even more innovative solutions in vehicle and machine design. Mastering such terms is essential for professionals in these industries, as it allows for clearer communication and collaboration in pursuit of excellence in design and functionality.

在工程和设计的世界中，理解特定术语对于有效的沟通和协作至关重要。一个经常出现在关于车辆动力学和空气动力学讨论中的术语是inboard turning。这个短语指的是一种操作或设计特征，其中车辆的轮子或控制面向车辆中心线内侧旋转。inboard turning的概念在多个上下文中都特别重要，包括汽车工程、飞机设计，甚至在机器人领域。为了说明inboard turning的重要性，让我们考虑它在汽车工业中的应用。在设计一辆车时，工程师必须确保车辆能够有效地应对紧急转弯。通过结合允许inboard turning的特征，车辆可以实现更小的转弯半径，使其在城市环境中更加灵活和响应迅速。这对于优先考虑操控性的运动型汽车和紧凑型车辆尤其有利。此外，inboard turning在提高安全性方面也发挥着重要作用。当一辆车能够更锐利地转弯时，它减少了在突然操作时发生事故的可能性。例如，如果驾驶员需要快速避开障碍物，配备了inboard turning能力的车辆可以比没有此类特征的车辆更有效地执行这一操作。车辆设计的这一方面不仅提高了性能，还对整体道路安全做出了贡献。在航空领域，inboard turning同样重要。飞机在起飞和降落时常常需要进行精确调整。通过利用促进inboard turning的控制面，飞行员可以执行更紧凑的转弯，并保持对飞机的更好控制。这种能力在空间有限的情况下尤为关键，比如在繁忙的机场降落或在拥挤的空域中导航时。此外，inboard turning的概念还超越了传统车辆。在机器人技术中，例如，为特定任务设计的机器人可能需要在狭窄的空间中导航。通过实施inboard turning机制，这些机器人可以更高效地进行机动，从而使它们能够在难以导航的环境中有效地执行其功能。理解inboard turning背后的机制也引发了关于设计创新的讨论。工程师和设计师不断寻找改善车辆和机器效率与效果的方法。通过研究inboard turning的原理，他们可以开发出新技术，提升性能，减少能耗，并改善用户体验。总之，inboard turning这一术语涵盖了多个领域的应用，从汽车到航空再到机器人。它的重要性不容小觑，因为它有助于提高性能、安全性和机动性。随着技术的不断进步，与inboard turning相关的原理可能会不断演变，从而在车辆和机器设计中引领更具创新性的解决方案。掌握这些术语对于这些行业的专业人士至关重要，因为它有助于在追求设计和功能卓越的过程中实现更清晰的沟通与协作。