angular slip
简明释义
1. 角位移; 2. 角变位;
英英释义
Angular slip refers to the difference between the actual rotation of an object and the rotation that would occur if there were no slipping at the point of contact. | 角滑移是指物体的实际旋转与在接触点没有滑动时应有的旋转之间的差异。 |
例句
1.The robotics team had to adjust the motors to minimize angular slip 角滑动 for better precision.
机器人团队必须调整电机以最小化
2.In racing, a higher angular slip 角滑动 can lead to loss of control over the vehicle.
在赛车中,较高的
3.The analysis revealed that excessive angular slip 角滑动 was affecting the overall performance of the machine.
分析显示,过度的
4.The engineer noted an increase in angular slip 角滑动 during the testing phase of the new gear system.
工程师在新齿轮系统的测试阶段注意到
5.To improve efficiency, we must reduce the angular slip 角滑动 in the transmission system.
为了提高效率,我们必须减少传动系统中的
作文
In the realm of physics and engineering, particularly in the study of mechanics, the term angular slip refers to the difference in angular displacement between two rotating bodies or surfaces. This phenomenon is crucial in understanding how different components interact with each other in machinery and vehicles. For instance, when a tire rotates on a road, the contact point between the tire and the surface experiences a certain amount of angular slip. This slip can lead to various effects such as loss of traction, skidding, or even improved maneuverability under certain conditions.To illustrate this concept further, consider a scenario where a car is negotiating a sharp turn. As the vehicle enters the curve, the wheels attempt to follow a circular path. However, if the tires do not maintain sufficient grip on the surface, they may experience angular slip, causing them to rotate at a different rate than the vehicle's actual trajectory. This discrepancy can result in oversteering or understeering, which are critical factors that drivers must manage to maintain control of the vehicle.Moreover, angular slip is not only limited to automotive applications. It is also prevalent in various fields such as robotics, where joints and actuators must work in harmony to achieve precise movements. In robotic arms, for example, if one joint moves faster than another due to mechanical limitations or programming errors, it can create an angular slip that affects the entire system's performance. Understanding this concept allows engineers to design better control systems that can compensate for these discrepancies, ensuring smoother and more accurate operations.The implications of angular slip extend into the world of sports as well. Athletes, particularly in sports like skiing or ice skating, must be acutely aware of how angular slip affects their performance. When making turns, the angle at which they lean and the speed at which they move will determine how much slip occurs. Skilled athletes learn to harness angular slip to their advantage, allowing them to navigate courses more effectively while minimizing the risk of falling or losing speed.In conclusion, the concept of angular slip is integral to various fields, influencing everything from vehicle dynamics to robotic movements and athletic performance. By understanding how angular slip operates, engineers, athletes, and mechanics can enhance their designs, techniques, and strategies to optimize performance and safety. As technology continues to advance, the study of angular slip will likely play an even more significant role in developing innovative solutions across multiple disciplines.
在物理和工程的领域中,特别是在力学研究中,术语angular slip指的是两个旋转体或表面之间的角位移差。这一现象对于理解不同组件在机械和车辆中的相互作用至关重要。例如,当轮胎在道路上旋转时,轮胎与表面之间的接触点会经历一定程度的angular slip。这种滑动可能导致各种效果,如失去牵引力、打滑,甚至在某些条件下改善操控性。为了进一步说明这一概念,可以考虑一种场景:一辆车正在进行急转弯。当车辆进入曲线时,车轮试图沿着圆形路径移动。然而,如果轮胎未能在表面上保持足够的抓地力,它们可能会经历angular slip,导致它们的旋转速度与车辆的实际轨迹不同。这种差异可能导致过度转向或不足转向,这是驾驶员必须管理的关键因素,以保持对车辆的控制。此外,angular slip不仅限于汽车应用。它在多个领域中普遍存在,例如机器人技术,其中关节和执行器必须协调工作以实现精确运动。例如,在机器人手臂中,如果一个关节由于机械限制或编程错误而比另一个关节移动得更快,就会产生影响整个系统性能的angular slip。理解这一概念使工程师能够设计出更好的控制系统,以补偿这些差异,从而确保更平滑、更准确的操作。angular slip的影响也延伸到体育界。运动员,特别是在滑雪或冰上滑行等运动中,必须清楚地意识到angular slip如何影响他们的表现。在转弯时,他们倾斜的角度和移动的速度将决定发生多少滑动。熟练的运动员学会利用angular slip为自己带来优势,使他们能够更有效地穿越赛道,同时最小化摔倒或失速的风险。总之,angular slip的概念对于多个领域至关重要,影响着从车辆动力学到机器人运动和运动表现的方方面面。通过理解angular slip的运作方式,工程师、运动员和机械师可以提高他们的设计、技术和策略,以优化性能和安全性。随着技术的不断进步,对angular slip的研究可能在多个学科的创新解决方案开发中发挥更重要的作用。
