tilting force

简明释义

翻转力

英英释义

例句

1.The engineer calculated the tilting force to ensure the stability of the structure under heavy winds.

工程师计算了倾斜力以确保结构在大风下的稳定性。

2.The tilting force on the boat increased as more passengers boarded from one side.

当更多乘客从一侧上船时，船上的倾斜力增加了。

3.To prevent tipping, the team adjusted the tilting force by redistributing the load.

为了防止倾倒，团队通过重新分配负载来调整倾斜力。

4.In a seesaw, the tilting force determines how high each side goes based on the weight distribution.

在翘翘板中，倾斜力决定了每一侧的高度，取决于重量分布。

5.When designing the ramp, the architect had to consider the tilting force that would act on it.

在设计坡道时，建筑师必须考虑作用于坡道的倾斜力。

作文

In the realm of physics and engineering, the concept of tilting force (倾斜力) plays a crucial role in understanding how objects behave under various conditions. A tilting force is essentially any force that causes an object to rotate or tilt around a pivot point. This can be observed in numerous real-world applications, ranging from the design of buildings to the operation of simple machines. To illustrate this further, consider the example of a seesaw in a playground. When one child sits on one end of the seesaw, their weight creates a tilting force that causes the other end to lift off the ground. The balance of forces determines how far the seesaw tilts and how stable it remains. If the weight on one side is significantly greater than the other, the tilting force will create an unbalanced system, leading to a complete flip.In engineering, understanding tilting force is essential for ensuring the stability of structures. For instance, when designing a tall building, engineers must calculate the potential tilting force caused by wind or seismic activity. If these forces are not adequately accounted for, the building could suffer catastrophic failure. The use of counterweights and strategic architectural designs can mitigate the risks associated with tilting force, ensuring that the structure remains upright and safe for occupants.Moreover, the concept extends into the world of vehicles. When a car takes a sharp turn, the centrifugal force acting on it creates a tilting force that can cause the vehicle to roll over if the speed is too high or the center of gravity is too high. This is why sports cars are designed with a low center of gravity; it helps them resist the effects of tilting force during high-speed maneuvers.The application of tilting force is not limited to physical objects. In the realm of economics and decision-making, we can also see parallels. For example, when a company decides to invest heavily in one area, it creates a tilting force that can shift resources away from other projects. This can lead to significant changes in company dynamics, sometimes resulting in fruitful innovation or, conversely, detrimental neglect of other important sectors.In conclusion, the understanding of tilting force (倾斜力) is pivotal across various fields. Whether in physics, engineering, or even economics, recognizing how this force operates allows us to design better systems, create safer environments, and make informed decisions. As we continue to explore the implications of tilting force, we gain deeper insights into the balance of forces that govern our world, ultimately leading to advancements in technology and improvements in safety and efficiency.

在物理和工程的领域中，倾斜力（tilting force）的概念在理解物体在不同条件下的行为方面发挥着至关重要的作用。倾斜力基本上是指任何导致物体围绕支点旋转或倾斜的力。这可以在许多现实应用中观察到，从建筑设计到简单机器的操作。为了进一步说明这一点，考虑一下游乐场中的跷跷板。当一个孩子坐在跷跷板的一端时，他们的重量产生了一个倾斜力，使得另一端离开地面。力的平衡决定了跷跷板倾斜的程度以及它保持稳定的能力。如果一侧的重量明显大于另一侧，倾斜力将导致一个不平衡的系统，从而导致完全翻转。在工程学中，理解倾斜力对于确保结构的稳定性至关重要。例如，在设计一栋高楼时，工程师必须计算由风或地震活动引起的潜在倾斜力。如果这些力量没有得到充分考虑，建筑可能会遭受灾难性的失败。使用配重和战略性的建筑设计可以减轻与倾斜力相关的风险，确保结构保持直立并为居住者提供安全。此外，这一概念还扩展到车辆的世界。当汽车急转弯时，作用于它的离心力会产生一个倾斜力，如果速度过快或重心过高，可能导致车辆翻滚。这就是为什么跑车设计为低重心；它有助于在高速机动时抵抗倾斜力的影响。倾斜力的应用不仅限于物理对象。在经济和决策的领域中，我们也可以看到相似之处。例如，当一家公司决定在某个领域进行大量投资时，它会产生一个倾斜力，使资源从其他项目中转移。这可能导致公司动态的重大变化，有时会导致丰硕的创新，反之则可能导致对其他重要部门的严重忽视。总之，理解倾斜力（tilting force）在各个领域都是关键的。无论是在物理、工程还是经济学中，认识到这种力量如何运作使我们能够设计更好的系统，创造更安全的环境，并做出明智的决策。随着我们继续探索倾斜力的影响，我们深入了解支配我们世界的力量平衡，最终推动技术的进步和安全与效率的提升。