absolute rolling

简明释义

绝对横摇

英英释义

例句

1.During the meeting, we discussed the absolute rolling of our sales figures, indicating a steady increase month over month.

在会议期间，我们讨论了我们的销售数字的绝对滚动，这表明每个月都有稳定的增长。

2.The team achieved an absolute rolling success in their project, meaning they consistently met all deadlines and objectives.

团队在他们的项目中取得了绝对的进展，这意味着他们始终如一地达成了所有的截止日期和目标。

3.In software development, achieving absolute rolling updates can significantly improve user experience by providing continuous improvements.

在软件开发中，实现绝对的滚动更新可以通过提供持续的改进来显著提升用户体验。

4.The factory implemented absolute rolling quality control measures to ensure that every product meets the highest standards.

工厂实施了绝对的滚动质量控制措施，以确保每个产品都符合最高标准。

5.The athlete's performance was described as absolute rolling, showcasing her unmatched consistency throughout the season.

这位运动员的表现被形容为绝对的流畅，展示了她在整个赛季中的无与伦比的一致性。

作文

In the realm of mathematics and physics, the concept of motion is often explored through various frameworks. One such fascinating concept is that of absolute rolling, which refers to the motion of an object rolling without slipping. This means that the point of contact between the rolling object and the surface does not slide, allowing for a perfect transfer of motion. The idea of absolute rolling is crucial in understanding the dynamics of wheels, balls, and other round objects as they move across different surfaces.When we think about absolute rolling, we can visualize a simple scenario: a ball rolling down a hill. As it descends, every point on the surface of the ball makes contact with the ground momentarily, yet there is no sliding motion at the point of contact. This phenomenon ensures that the energy is conserved and efficiently transferred from potential energy (at the top of the hill) to kinetic energy (as the ball rolls down).The implications of absolute rolling extend beyond basic physics; they are also significant in engineering and design. For instance, when engineers design vehicles, they must consider how wheels will interact with the road. The goal is to achieve absolute rolling to ensure maximum efficiency and control. If the wheels were to slip, it would result in a loss of traction, leading to inefficiencies and potentially dangerous situations.Moreover, absolute rolling plays a pivotal role in sports. Consider a basketball rolling towards the hoop. The player must understand the dynamics of the ball’s motion to make accurate shots. If the ball were to slide rather than roll, it would alter the trajectory and decrease the likelihood of scoring. Thus, athletes often practice to master the art of achieving absolute rolling with their equipment, whether it be balls, pucks, or other objects.In addition to practical applications, absolute rolling also has theoretical significance. It connects to broader concepts such as friction, angular momentum, and energy conservation. Understanding these principles allows scientists and mathematicians to delve deeper into the laws governing motion and forces. For example, the study of absolute rolling can lead to insights into how to minimize friction in mechanical systems, enhancing performance and durability.In conclusion, the concept of absolute rolling is multifaceted and deeply rooted in both theoretical and practical applications. From the simple act of a ball rolling down a hill to complex engineering designs, the principles underlying absolute rolling help us understand the world around us. Whether in sports, transportation, or scientific research, mastering this concept is essential for anyone looking to grasp the intricacies of motion and energy transfer. By recognizing the importance of absolute rolling, we can appreciate the elegance of physics and its applications in our daily lives.

在数学和物理的领域中，运动的概念常常通过各种框架进行探讨。其中一个引人入胜的概念是绝对滚动，它指的是物体在不打滑的情况下滚动的运动。这意味着滚动物体与表面之间的接触点不会滑动，从而实现运动的完美传递。绝对滚动的概念对于理解轮子、球体和其他圆形物体在不同表面上移动的动态至关重要。当我们想到绝对滚动时，可以想象一个简单的场景：一个球在山坡上滚下。当它下坡时，球表面的每一个点都会瞬间与地面接触，但接触点没有滑动。这一现象确保了能量得以保存，并有效地从势能（在山顶）转移到动能（当球滚下来时）。绝对滚动的影响超越了基本物理，它在工程和设计中也具有重要意义。例如，当工程师设计车辆时，他们必须考虑车轮与道路的相互作用。目标是实现绝对滚动，以确保最大效率和控制。如果车轮滑动，将导致牵引力的丧失，导致低效和潜在的危险情况。此外，绝对滚动在体育运动中也发挥着关键作用。考虑一下篮球向篮筐滚动的情景。球员必须理解球的运动动态才能准确投篮。如果球滑动而不是滚动，这将改变轨迹并降低得分的可能性。因此，运动员经常练习以掌握使用他们的设备实现绝对滚动的艺术，无论是球、冰球还是其他物体。除了实际应用之外，绝对滚动也具有理论意义。它与摩擦、角动量和能量守恒等更广泛的概念相连。理解这些原理使科学家和数学家能够深入研究运动和力的法则。例如，研究绝对滚动可以提供如何最小化机械系统中摩擦的见解，从而提高性能和耐用性。总之，绝对滚动的概念是多方面的，深深植根于理论和实际应用中。从一个球在山坡上滚下的简单行为到复杂的工程设计，支撑绝对滚动的原理帮助我们理解周围的世界。无论是在体育、交通还是科学研究中，掌握这一概念对于任何希望深入了解运动和能量传递复杂性的人来说都是必不可少的。通过认识到绝对滚动的重要性，我们可以欣赏物理学的优雅及其在日常生活中的应用。