deflecting force

简明释义

偏向力

英英释义

例句

1.During the experiment, we observed how the deflecting force 偏转力 affected the flow of water.

在实验中，我们观察到deflecting force 偏转力如何影响水流。

2.The engineer calculated the deflecting force 偏转力 acting on the bridge during strong winds.

工程师计算了在强风作用下桥梁上的deflecting force 偏转力。

3.In sports, the deflecting force 偏转力 from a player's movement can change the trajectory of the ball.

在运动中，运动员的动作产生的deflecting force 偏转力可以改变球的轨迹。

4.The deflecting force 偏转力 caused by the impact can significantly alter the path of a projectile.

冲击产生的deflecting force 偏转力可以显著改变弹丸的路径。

5.The car's design minimizes the deflecting force 偏转力 to enhance stability during high-speed turns.

汽车的设计最小化了deflecting force 偏转力，以增强高速转弯时的稳定性。

作文

In the realm of physics, understanding the concept of forces is crucial for comprehending how objects interact with one another. One of the intriguing aspects of force dynamics is the idea of a deflecting force, which refers to a force that causes an object to change its direction or path. This phenomenon can be observed in various scenarios, from everyday life to complex engineering applications. For instance, when a soccer player kicks a ball, the force exerted on the ball not only propels it forward but also alters its trajectory based on the angle and strength of the kick. In this case, the player's foot acts as a deflecting force, redirecting the ball's motion towards the goal.Moreover, the concept of a deflecting force is not limited to sports; it is also vital in understanding natural phenomena. Take, for example, the way wind interacts with trees. When strong winds blow, they exert a deflecting force on the branches, causing them to sway and bend. This bending is a natural response to the force applied, showcasing how external forces can alter the state of an object. Such interactions are essential for the survival of trees, as they allow them to withstand strong gusts without breaking.In engineering, the application of deflecting force is critical in designing structures that can withstand environmental pressures. Engineers must consider how wind, water, and other forces will impact buildings and bridges. For instance, during the design phase of a bridge, engineers calculate the deflecting force that wind will exert on the structure. By anticipating these forces, they can create designs that ensure stability and safety, preventing catastrophic failures.Furthermore, the concept of deflecting force extends into the realm of technology. In robotics, for example, the movement of robotic arms is often guided by the application of various forces. When a robot needs to pick up an object, it must apply a deflecting force to maneuver around obstacles. This requires precise calculations and programming to ensure that the arm moves effectively without colliding with surrounding objects.In conclusion, the deflecting force is a fundamental concept that permeates multiple disciplines, from sports to nature, engineering, and technology. Understanding how forces influence the movement and direction of objects can provide valuable insights into both natural and man-made systems. As we continue to explore the intricacies of physics, the role of deflecting force remains a pivotal element in our comprehension of the world around us. Whether we are observing a simple game of soccer or designing complex structures, recognizing the impact of deflecting force allows us to appreciate the dynamic interactions that shape our environment.

在物理学领域，理解力的概念对于理解物体之间的相互作用至关重要。力动力学中一个引人入胜的方面是“偏转力”的概念，它指的是导致物体改变方向或路径的力。这种现象可以在从日常生活到复杂工程应用的各种场景中观察到。例如，当一名足球运动员踢球时，施加在球上的力不仅向前推动它，还根据踢球的角度和力度改变其轨迹。在这种情况下，运动员的脚充当了“偏转力”，将球的运动引导向球门。此外，“偏转力”的概念不仅限于体育；它在理解自然现象中也至关重要。以风与树木的相互作用为例。当强风吹过时，它们对树枝施加了“偏转力”，使其摇摆和弯曲。这种弯曲是对施加力的自然反应，展示了外部力量如何改变物体的状态。这种相互作用对于树木的生存至关重要，因为它们允许树木在不折断的情况下承受强风。在工程学中，应用“偏转力”对于设计能够承受环境压力的结构至关重要。工程师必须考虑风、水和其他力量将如何影响建筑物和桥梁。例如，在桥梁设计阶段，工程师计算风对结构施加的“偏转力”。通过预见这些力量，他们可以创建确保稳定性和安全性的设计，从而防止灾难性故障。此外，“偏转力”的概念延伸到技术领域。例如，在机器人技术中，机器臂的运动通常由各种力的应用引导。当机器人需要拾起物体时，它必须施加“偏转力”以绕过障碍物。这需要精确的计算和编程，以确保机械臂有效移动而不与周围物体发生碰撞。总之，“偏转力”是一个基本概念，渗透到多个学科，从体育到自然、工程和技术。理解力量如何影响物体的运动和方向，可以为我们提供对自然系统和人造系统的宝贵见解。随着我们继续探索物理学的复杂性，“偏转力”的角色仍然是我们理解周围世界的关键元素。无论我们是在观察简单的足球比赛，还是在设计复杂的结构，认识到“偏转力”的影响使我们能够欣赏塑造我们环境的动态互动。