turning pair

简明释义

回转副

英英释义

例句

1.The coach emphasized the importance of a good turning pair in basketball for effective defense.

教练强调了在篮球中有效防守时良好的转动对的重要性。

2.The mechanic explained how the clutch and gearbox act as a turning pair in a vehicle's transmission system.

机械师解释了离合器和变速箱如何在车辆传动系统中作为一个转动对运作。

3.In programming, a function and its callback can be seen as a turning pair that enhances functionality.

在编程中，一个函数及其回调可以被视为一个增强功能的转动对。

4.In a game of chess, the rook and knight often form a strong turning pair to control the board.

在国际象棋中，车和马常常形成一个强大的转动对来控制棋盘。

5.In dance, the lead and follow roles create a dynamic turning pair that brings the routine to life.

在舞蹈中，领舞和跟随的角色创造了一个动态的转动对，使例行动作充满活力。

作文

The concept of a turning pair plays a significant role in various fields, most notably in mechanics and engineering. A turning pair refers to a connection between two elements that allows relative rotation while restricting other types of motion. This definition can be observed in everyday life, such as in the hinges of a door or the joints of a robotic arm. Understanding how a turning pair functions is crucial for designing systems that require precise movement and stability.In mechanical engineering, the analysis of turning pairs is fundamental when it comes to creating machines that perform specific tasks. For instance, in the design of a crane, engineers need to ensure that the turning pair connecting the boom to the mast allows for smooth rotation while maintaining the structural integrity needed to lift heavy loads. The efficiency of the crane's operation heavily relies on the proper functioning of its turning pair, which must be carefully calculated and constructed.Moreover, in robotics, the concept of a turning pair is essential for the articulation of robotic limbs. Each joint in a robot can be considered a turning pair, allowing the limb to move in a controlled manner. This is particularly important in applications where precision is key, such as in surgical robots or assembly line machinery. Engineers often utilize advanced materials and technologies to enhance the performance of these turning pairs, ensuring that they can withstand wear and tear while providing accurate movement.Furthermore, the study of turning pairs extends beyond mechanical systems into areas like physics and computer graphics. In physics, understanding the dynamics of a turning pair can help in analyzing forces and torques acting on a system. This knowledge is vital for predicting how objects will behave under different conditions, which is essential in fields ranging from aerospace engineering to automotive design.In computer graphics, turning pairs are used to create realistic animations. By simulating the motion of a turning pair, animators can depict how characters move and interact with their environment in a believable way. This technique is crucial for creating immersive experiences in video games and films, where the realism of movement can significantly impact the audience's engagement.In summary, the term turning pair encapsulates a fundamental principle that is applicable in numerous domains. Whether in engineering, robotics, physics, or computer graphics, the ability to understand and manipulate turning pairs is essential for innovation and functionality. As technology continues to advance, the importance of mastering the concept of turning pairs will only grow, paving the way for more sophisticated designs and applications that enhance our daily lives. By grasping the intricacies of turning pairs, we can unlock new possibilities and improve the efficiency of mechanical systems across various industries.

“转动副”的概念在多个领域中扮演着重要角色，尤其是在机械和工程领域。“转动副”是指两个元素之间的连接，允许相对旋转，同时限制其他类型的运动。这个定义可以在日常生活中观察到，例如门的铰链或机器人手臂的关节。理解“转动副”的功能对于设计需要精确运动和稳定性的系统至关重要。在机械工程中，对“转动副”的分析是创建执行特定任务的机器的基础。例如，在起重机的设计中，工程师需要确保连接吊臂与塔身的“转动副”允许平稳旋转，同时保持提升重物所需的结构完整性。起重机操作的效率在很大程度上依赖于其“转动副”的正常运作，而这一点必须经过仔细计算和构造。此外，在机器人技术中，“转动副”的概念对机器人肢体的关节运动至关重要。机器人中的每一个关节都可以视为一个“转动副”，允许肢体以受控的方式移动。这在精度至关重要的应用中尤为重要，例如在外科手术机器人或装配线机械中。工程师们常常利用先进的材料和技术来增强这些“转动副”的性能，确保它们能够承受磨损，同时提供准确的运动。此外，“转动副”的研究不仅限于机械系统，还扩展到物理学和计算机图形学等领域。在物理学中，理解“转动副”的动力学有助于分析作用于系统的力和力矩。这一知识对于预测物体在不同条件下的行为至关重要，这在航空航天工程到汽车设计等领域都是必不可少的。在计算机图形学中，“转动副”用于创建逼真的动画。通过模拟“转动副”的运动，动画师可以描绘角色如何在可信的方式中移动并与环境互动。这种技术对于创建视频游戏和电影中的沉浸式体验至关重要，其中运动的真实性会显著影响观众的参与感。总之，术语“转动副”概括了一个基本原则，该原则适用于许多领域。无论是在工程、机器人技术、物理学还是计算机图形学，理解和操控“转动副”的能力对于创新和功能性至关重要。随着技术的不断进步，掌握“转动副”概念的重要性只会增加，为更复杂的设计和应用铺平道路，从而改善我们日常生活的效率。通过掌握“转动副”的细微差别，我们可以解锁新的可能性，并提高各个行业机械系统的效率。