rolling angle

简明释义

横摇角船舶)横摇角横摇角

英英释义

例句

1.The rolling angle 滚转角度 affects how a ship responds to waves in the ocean.

船只的滚转角度 rolling angle影响其对海洋波浪的反应。

2.The engineer calculated the rolling angle 滚转角度 to ensure the stability of the aircraft during takeoff.

工程师计算了滚转角度 rolling angle以确保飞机在起飞时的稳定性。

3.The rolling angle 滚转角度 of the vehicle was monitored to prevent rollover accidents.

监测车辆的滚转角度 rolling angle以防止翻车事故。

4.In robotics, the rolling angle 滚转角度 is crucial for maintaining balance while navigating uneven surfaces.

在机器人技术中，滚转角度 rolling angle对于在不平坦表面上导航时保持平衡至关重要。

5.To optimize performance, the team adjusted the rolling angle 滚转角度 of the drone during flight tests.

为了优化性能，团队在飞行测试中调整了无人机的滚转角度 rolling angle。

作文

In the realm of physics and engineering, understanding the concept of rolling angle is crucial for analyzing the motion of objects. The rolling angle refers to the angle through which an object rotates about its axis as it rolls over a surface. This concept is particularly significant in the study of vehicles, machinery, and other rolling bodies. When a wheel rolls without slipping, the rolling angle can be directly related to the distance traveled by the object. For instance, if a wheel has a radius of one meter and it rolls forward without slipping, a rotation of 360 degrees corresponds to a distance of approximately 6.28 meters, which is the circumference of the wheel. Understanding the rolling angle is not only important in theoretical studies but also has practical applications. In automotive engineering, for example, the design of tires takes into account the rolling angle to optimize grip and stability on various surfaces. When a car turns, the rolling angle affects how weight is distributed across the tires, impacting traction and handling. Engineers must carefully calculate the rolling angle to ensure that vehicles perform safely and efficiently under different driving conditions.Moreover, the rolling angle is also relevant in sports and recreational activities. For instance, in skateboarding or snowboarding, the rolling angle influences how the board interacts with the ground during tricks and maneuvers. Athletes need to understand how to manipulate their body position to control the rolling angle effectively, allowing them to execute complex movements successfully.In robotics, the rolling angle plays a vital role in the movement of wheeled robots. Engineers design algorithms that enable robots to navigate their environment by calculating the necessary rolling angle to reach specific destinations. By understanding the relationship between the rolling angle and the robot's trajectory, developers can enhance the efficiency and accuracy of robotic movements.Furthermore, the rolling angle can also be observed in natural phenomena. For instance, when a ball rolls down a hill, the rolling angle determines how fast it accelerates and how far it travels. This principle is applied in various fields, including physics education, where students learn about energy conservation and motion dynamics through experiments involving rolling objects.In conclusion, the rolling angle is a fundamental concept that bridges theoretical knowledge and practical application across various disciplines. Whether it is in engineering, sports, robotics, or physics education, a thorough understanding of the rolling angle allows individuals to analyze and predict the behavior of rolling objects effectively. As technology continues to advance, the significance of the rolling angle will likely grow, further emphasizing the need for a solid grasp of this essential concept in both academic and real-world scenarios.

在物理和工程的领域中，理解“rolling angle”这一概念对于分析物体的运动至关重要。“rolling angle”指的是物体在其轴心周围旋转的角度，当它在表面上滚动时。这个概念在车辆、机械和其他滚动体的研究中尤为重要。当一个轮子无滑动地滚动时，“rolling angle”可以直接与物体所行驶的距离相关联。例如，如果一个轮子的半径为一米，并且它向前滚动而不滑动，那么360度的旋转对应于大约6.28米的距离，这就是轮子的周长。理解“rolling angle”不仅在理论研究中重要，而且在实际应用中也有着广泛的应用。在汽车工程中，例如，轮胎的设计考虑到“rolling angle”，以优化在各种表面上的抓地力和稳定性。当汽车转弯时，“rolling angle”影响着轮胎之间的重量分配，从而影响牵引力和操控性。工程师必须仔细计算“rolling angle”，以确保车辆在不同驾驶条件下安全高效地表现。此外，“rolling angle”在体育和娱乐活动中也具有相关性。例如，在滑板或单板滑雪中，“rolling angle”影响着滑板在技巧和动作执行过程中的与地面的互动。运动员需要理解如何操控自己的身体位置，以有效控制“rolling angle”，从而成功地执行复杂的动作。在机器人技术中，“rolling angle”在轮式机器人的运动中发挥着重要作用。工程师设计算法，使机器人能够通过计算所需的“rolling angle”来导航其环境。通过理解“rolling angle”与机器人的轨迹之间的关系，开发者可以提高机器人运动的效率和准确性。此外，“rolling angle”也可以在自然现象中观察到。例如，当一个球沿着小山滚下时，“rolling angle”决定了它加速的速度和行驶的距离。这个原理被应用于多个领域，包括物理教育，学生通过涉及滚动物体的实验学习能量守恒和运动动力学。总之，“rolling angle”是一个基本概念，连接了各个学科的理论知识和实际应用。无论是在工程、体育、机器人技术还是物理教育中，深入理解“rolling angle”使得个人能够有效分析和预测滚动物体的行为。随着科技的不断进步，“rolling angle”的重要性可能会进一步增加，从而强调在学术和现实场景中扎实掌握这一基本概念的必要性。