overswing angle

简明释义

超越角

英英释义

例句

1.The engineer adjusted the settings to minimize the overswing angle during operation.

工程师调整了设置，以最小化操作过程中的超摆角。

2.During the test, we observed that the overswing angle increased significantly under heavy loads.

在测试过程中，我们观察到在重负荷下超摆角显著增加。

3.To improve accuracy, we need to reduce the overswing angle in the pendulum's motion.

为了提高精度，我们需要减少摆动运动中的超摆角。

4.The robot arm's overswing angle can cause it to miss the target if not calibrated properly.

机器手臂的超摆角如果没有正确校准，可能会导致它错过目标。

5.A large overswing angle can lead to instability in the system, especially in robotics.

较大的超摆角可能会导致系统不稳定，尤其是在机器人技术中。

作文

In the field of physics and engineering, the term overswing angle refers to the angle by which a pendulum or a swinging object exceeds its maximum intended position before returning back to equilibrium. Understanding the overswing angle is crucial in various applications, including the design of amusement park rides, mechanical systems, and even in sports like golf or baseball where swinging motions are involved. When an object swings, it does so under the influence of gravity and other forces, and the overswing angle can significantly affect the overall performance and safety of the system. For instance, consider a simple pendulum. When it is released from a certain height, it swings down and then up again, but if the initial push was too strong, the pendulum might swing beyond its vertical resting position. This phenomenon is what we refer to as the overswing angle. If the angle is too large, it can lead to instability, causing the pendulum to oscillate wildly instead of settling down to its equilibrium state. Engineers must calculate this angle carefully to ensure that mechanisms operate smoothly without any risk of malfunction. In the context of amusement park rides, the overswing angle plays a critical role in the design of roller coasters and pendulum rides. Designers must account for the forces acting on riders during the upswing and downswing phases of the ride. If the overswing angle is not properly managed, it could result in a jarring experience for riders or even pose safety hazards. Thus, understanding the dynamics of swinging motions and the implications of the overswing angle is essential for creating enjoyable and safe experiences. Moreover, in the realm of sports, the concept of the overswing angle can be applied to improve performance. For example, in golf, if a player swings the club too hard, the angle at which the clubhead moves can exceed the optimal path, leading to a poor shot. Coaches often emphasize the importance of controlled swings to maintain the ideal overswing angle, which allows for better accuracy and distance. Similarly, in baseball, a batter must manage their swing to avoid overshooting the ball, which can result in missed opportunities to hit.In conclusion, the overswing angle is a significant concept that appears in various fields of study. Whether it is in engineering, amusement rides, or sports, understanding this angle can lead to better designs, improved safety, and enhanced performance. As we continue to explore the principles of motion and mechanics, the importance of the overswing angle will remain a key factor in ensuring efficiency and effectiveness in a multitude of applications. It is vital for students and professionals alike to grasp this concept, as it not only aids in theoretical understanding but also has practical implications in real-world scenarios.

在物理和工程领域，术语overswing angle指的是摆锤或摆动物体超过其最大预定位置的角度，然后再返回到平衡状态。理解overswing angle在各种应用中至关重要，包括游乐园设施、机械系统的设计，甚至在高尔夫或棒球等运动中，挥杆动作也涉及到这一概念。当一个物体摆动时，它是在重力和其他力量的影响下进行的，而overswing angle可以显著影响系统的整体性能和安全性。例如，考虑一个简单的摆锤。当它从一定高度释放时，它会向下摆动，然后再向上摆动，但如果初始推力过大，摆锤可能会摆动超过其垂直静止位置。这种现象就是我们所说的overswing angle。如果角度过大，可能导致不稳定，使摆锤剧烈摆动，而不是平稳地回到平衡状态。工程师必须仔细计算这个角度，以确保机械装置顺利运行而没有故障的风险。在游乐园设施的设计中，overswing angle在过山车和摆锤类游乐设施的设计中起着关键作用。设计师必须考虑在游乐设施的上升和下降阶段对乘客施加的力量。如果overswing angle管理不当，可能会导致乘客体验不适或甚至安全隐患。因此，理解摆动运动的动态以及overswing angle的影响对于创造愉快和安全的体验至关重要。此外，在体育领域，overswing angle的概念可以应用于提高表现。例如，在高尔夫比赛中，如果球员挥动球杆的力度过大，球杆头移动的角度可能会超过最佳路径，从而导致击球效果不佳。教练们常常强调控制挥杆的重要性，以保持理想的overswing angle，这有助于提高准确性和距离。同样，在棒球比赛中，击球手必须管理他们的挥杆，以避免错过球，这可能导致错失击球机会。总之，overswing angle是一个重要的概念，出现在多个研究领域。无论是在工程、游乐设施还是体育中，理解这个角度都可以带来更好的设计、更高的安全性和更好的表现。随着我们继续探索运动和力学的原理，overswing angle的重要性将始终是确保多种应用效率和有效性的关键因素。学生和专业人士都必须掌握这一概念，因为它不仅有助于理论理解，还在现实场景中具有实际意义。