static moment

简明释义

静力矩

英英释义

例句

1.In bridge design, the static moment is crucial for determining stability.

在桥梁设计中，静矩对于确定稳定性至关重要。

2.The static moment of the beam was measured to assess its strength.

为了评估梁的强度，测量了静矩。

3.The architect used the static moment to optimize the building's design.

建筑师利用静矩来优化建筑设计。

4.The engineer calculated the static moment to ensure the structure could withstand the load.

工程师计算了静矩以确保结构能够承受负载。

5.Understanding the static moment helps in predicting how forces will affect an object.

理解静矩有助于预测力如何影响物体。

作文

In engineering and physics, understanding the concept of static moment is crucial for analyzing structures and ensuring their stability. The term static moment refers to the measure of the tendency of a force to cause rotation about a point or axis when the object is in equilibrium. It is calculated by multiplying the magnitude of the force by the perpendicular distance from the line of action of the force to the point or axis of rotation. This concept plays a significant role in various applications, from bridge design to mechanical systems. For instance, consider a simple scenario where a beam is supported at one end and a weight is applied at the other. To keep the beam in balance, the static moment produced by the weight must be counteracted by the reaction force at the support. If the weight is too heavy or placed too far from the support, the static moment will exceed the capacity of the beam, leading to potential failure. Engineers must carefully calculate these moments to ensure safety and functionality.Moreover, the static moment is not only relevant in static systems but also in dynamic situations where forces are applied. For example, in a rotating system, understanding how the static moment changes with varying forces and distances is essential for designing efficient machines. In robotics, for instance, the design of robotic arms requires a thorough understanding of static moment to ensure that they can lift and manipulate objects without tipping over or collapsing under their own weight.The application of static moment extends beyond traditional engineering fields. In architecture, it helps architects design buildings that can withstand environmental forces such as wind and earthquakes. By analyzing the static moment at various points in a structure, architects can determine the best materials and shapes to use to enhance stability and safety.Furthermore, the understanding of static moment is vital in everyday life. When we sit on a seesaw, our position affects the balance of the board through the static moment created by our weight. If one person is significantly heavier or further from the pivot point, the seesaw will tip. This principle can be observed in various activities, from playing on playground equipment to balancing objects on a table.In conclusion, the concept of static moment is fundamental in many disciplines, including engineering, architecture, and even everyday activities. By grasping this concept, individuals can better appreciate the mechanics of balance and stability in both theoretical and practical applications. As we continue to innovate and develop new technologies, the principles behind static moment will remain an essential part of ensuring our structures and systems function safely and effectively.

在工程和物理学中，理解“静态力矩”的概念对于分析结构和确保其稳定性至关重要。术语“静态力矩”是指力对某一点或轴线造成旋转趋势的量度，当物体处于平衡状态时。它通过将力的大小乘以力的作用线到旋转点或轴的垂直距离来计算。这个概念在各种应用中发挥着重要作用，从桥梁设计到机械系统。例如，考虑一个简单的场景，其中一根梁在一端支撑，另一端施加重物。为了保持梁的平衡，重物产生的“静态力矩”必须被支撑点的反作用力抵消。如果重物过重或放置得离支撑点太远，“静态力矩”将超过梁的承载能力，可能导致失败。工程师必须仔细计算这些力矩，以确保安全和功能。此外，“静态力矩”不仅与静态系统相关，还与施加力的动态情况有关。例如，在旋转系统中，理解“静态力矩”如何随着不同的力和距离变化而变化，对于设计高效的机器至关重要。在机器人技术中，例如，机器人手臂的设计需要深入理解“静态力矩”，以确保它们能够在不倾倒或在自身重量下崩溃的情况下举起和操作物体。“静态力矩”的应用超越了传统工程领域。在建筑学中，它帮助建筑师设计能够承受风和地震等环境力量的建筑。通过分析结构中各个点的“静态力矩”，建筑师可以确定使用最佳材料和形状以增强稳定性和安全性。此外，理解“静态力矩”在日常生活中也是至关重要的。当我们坐在跷跷板上时，我们的位置通过“静态力矩”影响着板的平衡。如果一个人明显更重或离支点更远，跷跷板就会倾斜。这一原理可以在各种活动中观察到，从在游乐场设备上玩耍到在桌子上平衡物体。总之，“静态力矩”的概念在许多学科中都是基础，包括工程、建筑甚至日常活动。通过掌握这一概念，个人可以更好地理解理论和实践应用中平衡和稳定的机制。随着我们继续创新和开发新技术，“静态力矩”背后的原理将仍然是确保我们的结构和系统安全有效运行的重要部分。