equilibrant force

简明释义

平衡力

英英释义

例句

1.To achieve equilibrium, the equilibrant force 平衡力 must be applied to match the total applied forces.

为了达到平衡，必须施加 平衡力 equilibrant force 以匹配总施加的力量。

2.In physics, the equilibrant force 平衡力 acts to counterbalance other forces acting on an object.

在物理学中，平衡力 equilibrant force 作用于抵消作用在物体上的其他力量。

3.When two people push a car in opposite directions, the equilibrant force 平衡力 helps keep it stationary.

当两个人朝相反方向推一辆车时，平衡力 equilibrant force 帮助保持它静止。

4.In a static system, the equilibrant force 平衡力 is equal in magnitude and opposite in direction to the net force acting on the object.

在静态系统中，平衡力 equilibrant force 的大小与作用在物体上的合力相等，方向相反。

5.The concept of equilibrant force 平衡力 is crucial in understanding how structures remain stable.

理解结构如何保持稳定时，平衡力 equilibrant force 的概念至关重要。

作文

In the realm of physics, understanding forces and their interactions is crucial. One important concept that often arises in discussions about forces is the equilibrant force. The equilibrant force is defined as a force that is equal in magnitude but opposite in direction to the net force acting on an object. This means that when an equilibrant force is applied to an object, it will bring the object into a state of equilibrium, effectively balancing out all the forces acting upon it. To illustrate this concept, consider a scenario where a box is being pushed across a floor. If a person applies a force of 10 Newtons to the right, and friction acts on the box with a force of 4 Newtons to the left, the net force acting on the box is 6 Newtons to the right. To achieve equilibrium, an equilibrant force of 6 Newtons must be applied to the left. Once this equilibrant force is introduced, the net forces acting on the box will cancel each other out, resulting in no movement.The significance of the equilibrant force can be observed in various real-life applications. For example, in engineering and construction, ensuring that structures remain stable under various loads is essential. Engineers must calculate the equilibrant force to ensure that buildings can withstand wind, earthquakes, and other forces without collapsing. By applying the appropriate equilibrant force, they can maintain the structural integrity of a building.Moreover, the concept of the equilibrant force is not limited to static situations. In dynamic systems, such as vehicles in motion, understanding how to apply forces effectively can lead to better control and safety. For instance, when a car is turning, the driver must account for the forces acting on the vehicle, including centrifugal force. By applying the correct steering and braking actions, the driver effectively utilizes the equilibrant force to maintain control and ensure a safe maneuver.In summary, the equilibrant force plays a vital role in understanding forces in both static and dynamic contexts. It allows us to analyze and predict the behavior of objects under various conditions. Whether it is in everyday situations like pushing a box or more complex scenarios like engineering designs, the equilibrant force helps us achieve balance and stability. Thus, mastering the concept of the equilibrant force is essential for anyone studying physics or engaging in fields that require an understanding of forces and their effects.

在物理学领域，理解力和它们的相互作用至关重要。一个经常出现在关于力的讨论中的重要概念是平衡力。平衡力被定义为与作用在物体上的合力大小相等但方向相反的力。这意味着，当施加平衡力于一个物体时，它将使物体处于平衡状态，有效地平衡所有作用在其上的力。为了说明这个概念，考虑一个场景：一个箱子正在地板上被推。如果一个人施加10牛顿的力向右，而摩擦力对箱子施加4牛顿的力向左，那么作用在箱子上的合力为6牛顿向右。为了实现平衡，必须施加一个6牛顿的平衡力向左。一旦引入这个平衡力，作用在箱子上的净力将相互抵消，导致没有运动。平衡力的重要性可以在各种现实应用中观察到。例如，在工程和建筑中，确保结构在各种载荷下保持稳定是至关重要的。工程师必须计算平衡力以确保建筑能够承受风、地震和其他力而不倒塌。通过施加适当的平衡力，他们可以维持建筑的结构完整性。此外，平衡力的概念并不仅限于静态情况。在动态系统中，例如运动中的车辆，理解如何有效施加力可以带来更好的控制和安全性。例如，当汽车转弯时，驾驶员必须考虑作用在车辆上的力，包括离心力。通过施加正确的转向和刹车动作，驾驶员有效利用平衡力来保持控制并确保安全操作。总之，平衡力在理解静态和动态上下文中的力方面发挥着至关重要的作用。它使我们能够分析和预测物体在各种条件下的行为。无论是在推动箱子这样的日常情况，还是在更复杂的场景如工程设计中，平衡力帮助我们实现平衡和稳定。因此，掌握平衡力的概念对于任何学习物理或参与需要理解力及其影响的领域的人来说都是必不可少的。