tilting moment

简明释义

颠覆力矩

英英释义

例句

1.In the design phase, we must consider the tilting moment 倾斜力矩 when placing the heavy machinery.

在设计阶段，我们必须考虑重型机械放置时的倾斜力矩 tilting moment。

2.The architect explained how the tilting moment 倾斜力矩 affects the overall design of the building.

建筑师解释了倾斜力矩 tilting moment如何影响建筑的整体设计。

3.The boat capsized due to an excessive tilting moment 倾斜力矩 caused by uneven weight distribution.

由于不均匀的重量分布，船只因过大的倾斜力矩 tilting moment而翻覆。

4.The engineer calculated the tilting moment 倾斜力矩 to ensure the stability of the structure under wind load.

工程师计算了倾斜力矩 tilting moment，以确保结构在风荷载下的稳定性。

5.To avoid accidents, the pilot must be aware of the tilting moment 倾斜力矩 during flight maneuvers.

为了避免事故，飞行员在飞行操作过程中必须注意倾斜力矩 tilting moment。

作文

In the world of engineering and physics, understanding various forces and moments is crucial for designing stable structures and mechanisms. One such important concept is the tilting moment, which refers to the rotational force that causes an object to tilt or rotate about a pivot point. This concept is particularly relevant in fields such as civil engineering, mechanical engineering, and even in everyday applications like vehicles and furniture stability. To comprehend the significance of the tilting moment, let’s consider a simple example: a seesaw. When one person sits on one end of the seesaw, their weight creates a tilting moment around the central pivot. The farther they sit from the pivot, the greater the tilting moment they create, making it easier for them to lift the other side. This fundamental principle illustrates how distance and weight contribute to the tilting moment. In engineering applications, the calculation of the tilting moment is vital for ensuring safety and functionality. For instance, when designing a bridge, engineers must account for the tilting moment caused by vehicles passing over it. If the tilting moment exceeds certain limits, it could lead to structural failure. Therefore, engineers use various methods to calculate and mitigate these moments, ensuring that the bridge remains stable under load. Moreover, the tilting moment is also a critical factor in vehicle design. Cars, trucks, and buses are all subject to tilting moments when turning or when unevenly loaded. For example, if a truck carries a heavy load on one side, the tilting moment can cause the vehicle to tip over, leading to dangerous situations. To prevent this, manufacturers design vehicles with a low center of gravity and implement features like anti-roll bars to counteract the effects of the tilting moment. In addition to engineering, the concept of the tilting moment can be applied metaphorically in our daily lives. For instance, consider a situation where someone is faced with a significant decision, such as changing careers or moving to a new city. The tilting moment in this context might refer to that pivotal moment when the scales tip, and a choice is made. Just like in physical systems, the factors influencing this decision—such as personal desires, financial considerations, and family obligations—can create a tilting moment that leads to a change in direction. In conclusion, the tilting moment is a multifaceted concept that extends beyond the realms of physics and engineering. It serves as a reminder of how forces interact in our world, whether in the design of robust structures or in the decisions we make in our lives. By understanding the principles behind the tilting moment, we can better appreciate the balance and stability required in both physical systems and personal choices.

在工程和物理的世界中，理解各种力和力矩对于设计稳定的结构和机制至关重要。其中一个重要的概念是倾斜力矩，它指的是使物体围绕支点倾斜或旋转的旋转力。这个概念在土木工程、机械工程等领域以及日常应用，如车辆和家具的稳定性中尤为相关。为了理解倾斜力矩的重要性，让我们考虑一个简单的例子：跷跷板。当一个人坐在跷跷板的一端时，他们的重量会在中央支点周围产生一个倾斜力矩。他们离支点越远，产生的倾斜力矩就越大，使得抬起另一侧变得更容易。这个基本原理说明了距离和重量如何共同影响倾斜力矩。在工程应用中，计算倾斜力矩对于确保安全和功能至关重要。例如，在设计桥梁时，工程师必须考虑过往车辆造成的倾斜力矩。如果倾斜力矩超过某些限制，可能导致结构失效。因此，工程师使用各种方法来计算和减轻这些力矩，确保桥梁在负载下保持稳定。此外，倾斜力矩在车辆设计中也是一个关键因素。汽车、卡车和公共汽车在转弯或不均匀装载时都受到倾斜力矩的影响。例如，如果一辆卡车在一侧承载重物，可能导致倾斜力矩使车辆翻倒，从而引发危险情况。为了防止这种情况，制造商设计低重心的车辆，并实施防倾杆等特性，以抵消倾斜力矩的影响。除了工程之外，倾斜力矩的概念还可以在我们的日常生活中隐喻地应用。例如，考虑一个人面临重大决定的情境，比如换工作或搬到新城市。在这个上下文中，倾斜力矩可能指的是那个决定性的时刻，当天平倾斜，选择被做出。就像在物理系统中一样，影响这一决定的因素——个人愿望、财务考虑和家庭义务——可以创造出一个倾斜力矩，导致方向的改变。总之，倾斜力矩是一个多层面的概念，超越了物理和工程的领域。它提醒我们，力量如何在我们的世界中相互作用，无论是在坚固结构的设计中，还是在我们生活中的决策中。通过理解倾斜力矩背后的原理，我们可以更好地欣赏物理系统和个人选择所需的平衡与稳定。