peripheral force

简明释义

圆周力

英英释义

例句

1.The peripheral force 外围力量 of public opinion often influences political decisions.

公众舆论的外围力量常常影响政治决策。

2.In negotiations, understanding the peripheral force 外围力量 can give you an advantage over your opponent.

在谈判中，理解外围力量可以让你在对手面前占据优势。

3.The peripheral force 外围力量 in the market can affect pricing strategies significantly.

市场中的外围力量可以显著影响定价策略。

4.The team decided to focus on the main project, while the peripheral force 外围力量 would handle secondary tasks.

团队决定专注于主要项目，而外围力量将处理次要任务。

5.Effective leaders recognize the peripheral force 外围力量 within their organizations that can drive change.

有效的领导者能够识别组织内可以推动变革的外围力量。

作文

In the realm of physics, forces are often categorized into two main types: central forces and peripheral force. While central forces act directly towards a center point, peripheral force refers to those forces that act on the outer edges or peripheries of an object. Understanding this distinction is crucial, especially when analyzing systems in motion or examining the dynamics of various physical phenomena. To illustrate the concept of peripheral force, we can consider the example of a spinning wheel. As the wheel rotates, the force exerted at the rim is a classic example of a peripheral force. This force is essential for maintaining the wheel's motion and stability. If we were to remove the peripheral force, the wheel would lose its momentum and eventually come to a stop. In engineering, the application of peripheral force is particularly significant. For instance, in the design of roller coasters, engineers must account for the peripheral force acting on the riders as they navigate through loops and turns. The sensation of being pushed against the seat during these maneuvers is a direct result of peripheral force at play. It is this force that creates the thrilling experience of weightlessness or increased gravity that riders feel. Moreover, peripheral force also has implications in sports. Consider a soccer ball being kicked. The force applied by the player's foot at the edge of the ball generates a peripheral force that propels it forward. The angle and intensity of this kick determine the ball's trajectory, speed, and spin. Understanding how to manipulate peripheral force can enhance a player's skill, allowing them to perform more effectively on the field. Additionally, in the context of environmental science, peripheral force can be observed in the movement of ocean currents. These currents are influenced by various factors such as wind patterns, the Earth's rotation, and geographical features. The peripheral force exerted by these currents plays a vital role in regulating climate and weather patterns across the globe. In conclusion, the concept of peripheral force extends far beyond simple definitions; it permeates various fields of study and real-world applications. From physics to engineering, sports to environmental science, understanding peripheral force allows us to grasp the complexities of motion and interaction within our universe. By recognizing the significance of these forces, we can better appreciate the intricate balance that governs both natural phenomena and human-made systems. Ultimately, mastering the idea of peripheral force not only enriches our knowledge of physics but also enhances our ability to innovate and solve problems in diverse domains.

在物理学领域，力通常被分为两种主要类型：中心力和外周力。中心力是指直接作用于中心点的力，而外周力则是指作用于物体外缘或边缘的力。理解这种区别至关重要，尤其是在分析运动系统或检查各种物理现象的动态时。为了说明外周力的概念，我们可以考虑一个旋转轮子的例子。当轮子旋转时，施加在轮缘上的力就是经典的外周力示例。这种力对于维持轮子的运动和稳定性至关重要。如果我们去掉外周力，轮子将失去动量，最终停止。在工程学中，外周力的应用尤为重要。例如，在过山车的设计中，工程师必须考虑在乘客穿越环形和转弯时施加的外周力。在这些操作中，乘客被推向座椅的感觉就是由于外周力的作用。正是这种力量创造了乘客在这些动作中体验到的失重或增加重力的刺激。此外，在体育运动的背景下，外周力也可以观察到。例如，考虑一名足球运动员踢球的情景。运动员的脚在球的边缘施加的力会产生外周力，推动球向前。踢球的角度和力度决定了球的轨迹、速度和旋转。理解如何操控外周力可以提高运动员的技巧，使他们在场上表现得更有效。此外，在环境科学的背景下，外周力可以在海洋洋流的运动中观察到。这些洋流受到风向、地球自转和地理特征等多种因素的影响。这些洋流施加的外周力在调节全球气候和天气模式中起着至关重要的作用。总之，外周力的概念远不止简单的定义；它渗透到各个研究领域和现实应用中。从物理学到工程学，从体育到环境科学，理解外周力使我们能够掌握运动和相互作用的复杂性。通过认识这些力量的重要性，我们可以更好地欣赏支配自然现象和人造系统的微妙平衡。最终，掌握外周力的概念不仅丰富了我们对物理学的知识，也增强了我们在不同领域创新和解决问题的能力。