radius of turn

简明释义

旋转半径

英英释义

例句

1.The engineer designed the road with a proper radius of turn 转弯半径 to ensure vehicle safety.

工程师设计了道路，确保有适当的radius of turn 转弯半径 以保障车辆安全。

2.The ship's navigator calculated the radius of turn 转弯半径 to avoid shallow waters during the maneuver.

船舶导航员计算了radius of turn 转弯半径 以避免在操控过程中进入浅水区。

3.In racing, understanding the radius of turn 转弯半径 can help drivers optimize their speed through corners.

在赛车中，理解radius of turn 转弯半径 可以帮助车手优化他们在弯道中的速度。

4.The pilot adjusted the flight path to ensure the radius of turn 转弯半径 was safe for the aircraft's size.

飞行员调整了飞行路径，以确保飞机的radius of turn 转弯半径 对于其尺寸是安全的。

5.When driving a bus, the radius of turn 转弯半径 is crucial for making tight turns in urban areas.

驾驶公共汽车时，radius of turn 转弯半径 对于在城市区域进行紧急转弯至关重要。

作文

Understanding the concept of the radius of turn is essential in various fields, including aviation, maritime navigation, and even automotive design. The radius of turn refers to the smallest circular path that a vehicle or an aircraft can make while turning. This measurement is crucial for ensuring safety and efficiency during maneuvers. In aviation, for example, pilots must be aware of the radius of turn to maintain control of the aircraft and avoid obstacles. Similarly, in maritime navigation, understanding the radius of turn helps captains navigate large vessels safely through narrow channels or tight corners.In the context of automotive design, the radius of turn plays a significant role in determining how well a vehicle can handle turns. Cars with a smaller radius of turn can maneuver more easily in tight spaces, making them ideal for urban environments. On the other hand, vehicles designed for high-speed travel may have a larger radius of turn, which can affect their agility but enhances stability at high speeds.Calculating the radius of turn involves understanding several factors, including the speed of the vehicle, the angle of the turn, and the friction between the tires and the road surface. For instance, a vehicle traveling at high speed will require a larger radius of turn to maintain control compared to a vehicle moving slowly. This principle is particularly important in motorsport, where precision in cornering can significantly impact race outcomes.Moreover, the radius of turn is not solely limited to vehicles; it also applies to any object that moves along a curved path. For example, roller coasters are designed with specific radii of turn to ensure passenger safety and comfort. Engineers must carefully calculate these radii of turn to prevent excessive lateral forces on riders, which could lead to discomfort or injury.In conclusion, the concept of the radius of turn is multifaceted and has implications across various industries. Whether in aviation, maritime navigation, automotive design, or amusement park engineering, understanding the radius of turn is critical for safety and performance. As technology advances, the methods for calculating and optimizing the radius of turn will continue to evolve, leading to safer and more efficient designs in all areas of transportation and movement. Therefore, mastering the principles surrounding the radius of turn is not just beneficial but essential for professionals in these fields.

理解“转弯半径”这一概念在航空、海洋导航以及汽车设计等多个领域都是至关重要的。“转弯半径”指的是车辆或飞机在转弯时能够形成的最小圆形路径。这一测量对于确保在机动过程中的安全性和效率至关重要。例如，在航空领域，飞行员必须了解“转弯半径”，以保持对飞机的控制并避免障碍物。同样，在海洋导航中，了解“转弯半径”有助于船长安全地驾驶大型船只通过狭窄的通道或急转弯。在汽车设计的背景下，“转弯半径”在决定车辆如何处理转弯方面起着重要作用。转弯半径较小的汽车可以更容易地在狭窄空间内机动，使其非常适合城市环境。另一方面，为高速行驶而设计的车辆可能具有较大的“转弯半径”，这会影响它们的灵活性，但在高速下增强了稳定性。计算“转弯半径”涉及了解多个因素，包括车辆的速度、转弯角度以及轮胎与路面之间的摩擦力。例如，以高速行驶的车辆需要较大的“转弯半径”来保持控制，而慢速行驶的车辆则可以使用较小的转弯半径。这一原则在赛车运动中特别重要，因为精准的过弯能力会显著影响比赛结果。此外，“转弯半径”不仅限于车辆，它也适用于任何沿曲线移动的物体。例如，过山车的设计就遵循特定的“转弯半径”，以确保乘客的安全和舒适。工程师必须仔细计算这些“转弯半径”，以防止对乘客施加过大的横向力量，这可能导致不适或伤害。总之，“转弯半径”这一概念是多方面的，并且在各个行业中都有影响。无论是在航空、海洋导航、汽车设计还是游乐园工程中，理解“转弯半径”对于安全和性能都是至关重要的。随着技术的发展，计算和优化“转弯半径”的方法将继续演变，从而在所有运输和移动领域中实现更安全、更高效的设计。因此，掌握围绕“转弯半径”的原则不仅有益，而且对这些领域的专业人士来说是必不可少的。