transversal stability

简明释义

横向稳定性

英英释义

例句

1.To increase the transversal stability of the structure, additional bracing was added to the framework.

为了提高结构的横向稳定性，在框架中增加了额外的支撑。

2.The study focused on the transversal stability of the new aircraft design under various wind conditions.

该研究集中在新型飞机设计在不同风况下的横向稳定性。

3.In robotics, achieving transversal stability allows the robot to navigate uneven terrain without tipping over.

在机器人技术中，实现横向稳定性使得机器人能够在不平坦的地形上行走而不至于倾覆。

4.The engineer emphasized the importance of transversal stability in the design of the bridge to ensure it can withstand lateral forces.

工程师强调了在桥梁设计中确保其能够承受横向力的重要性，即横向稳定性。

5.The team conducted tests to measure the transversal stability of the vehicle during sharp turns.

团队进行了测试，以测量车辆在急转弯时的横向稳定性。

作文

In the field of engineering and physics, the concept of transversal stability plays a crucial role in ensuring that structures and systems can withstand various forces and maintain their intended performance. Transversal stability refers to the ability of a system or structure to remain stable when subjected to lateral or transverse loads. These loads can arise from various sources, such as wind, seismic activity, or even the weight of materials being transported. Understanding transversal stability is essential for designing buildings, bridges, and other infrastructure that can endure these forces without collapsing or becoming unsafe.One of the primary concerns in engineering design is to ensure that structures can maintain their integrity under different loading conditions. For instance, when a building experiences high winds, it is vital that the structure does not sway excessively. This is where transversal stability comes into play. Engineers must consider various factors, including the materials used, the shape of the structure, and the distribution of mass, to enhance transversal stability. By doing so, they can prevent catastrophic failures that could result from inadequate stability.Moreover, transversal stability is not only relevant in static structures but also in dynamic systems. For example, vehicles must exhibit transversal stability when navigating turns or encountering obstacles. If a vehicle lacks sufficient transversal stability, it may tip over or skid, leading to accidents. Therefore, automotive engineers invest significant effort into designing vehicles with a low center of gravity and a wide wheelbase to enhance their transversal stability.The importance of transversal stability can also be observed in natural systems. For instance, ecosystems often rely on the stability of their components to function effectively. A forest, for example, demonstrates transversal stability through its diverse plant and animal life, which work together to create a balanced environment. When one species is removed or becomes endangered, the entire ecosystem can become destabilized, leading to unpredictable consequences. Thus, understanding the principles of transversal stability can help conservationists develop strategies to protect these vital systems.In conclusion, transversal stability is a fundamental concept in various fields, including engineering, physics, and environmental science. Its significance lies in the ability of structures and systems to maintain their integrity when faced with lateral forces. By prioritizing transversal stability in design and planning, we can create safer buildings, more reliable vehicles, and healthier ecosystems. As our world continues to evolve and face new challenges, the need for a comprehensive understanding of transversal stability will only grow stronger, highlighting its importance in fostering resilience in both human-made and natural systems.

在工程和物理领域，横向稳定性的概念在确保结构和系统能够承受各种力并保持其预期性能方面发挥着至关重要的作用。横向稳定性是指系统或结构在受到横向或横向载荷时保持稳定的能力。这些载荷可能来自多种来源，例如风、地震活动，甚至是运输材料的重量。理解横向稳定性对设计能够承受这些力量而不倒塌或变得不安全的建筑、桥梁和其他基础设施至关重要。工程设计中的主要关注点之一是确保结构在不同载荷条件下能够保持其完整性。例如，当一栋建筑遭遇强风时，至关重要的是结构不会过度摇摆。这就是横向稳定性发挥作用的地方。工程师必须考虑多种因素，包括所用材料、结构的形状和质量的分布，以增强横向稳定性。通过这样做，他们可以防止因稳定性不足而导致的灾难性故障。此外，横向稳定性不仅与静态结构相关，也与动态系统相关。例如，车辆在转弯或遇到障碍物时必须表现出横向稳定性。如果一辆车缺乏足够的横向稳定性，它可能会翻倒或打滑，导致事故。因此，汽车工程师投入大量精力设计低重心和宽轮距的车辆，以增强其横向稳定性。横向稳定性的重要性还可以在自然系统中观察到。例如，生态系统通常依赖其组成部分的稳定性来有效运作。以森林为例，它通过多样化的植物和动物生命展示了横向稳定性，这些生命共同作用创造了一个平衡的环境。当一种物种被移除或濒临灭绝时，整个生态系统可能会变得不稳定，导致不可预测的后果。因此，理解横向稳定性的原理可以帮助保护主义者制定保护这些重要系统的策略。总之，横向稳定性是多个领域（包括工程、物理和环境科学）中的基本概念。其重要性在于结构和系统在面临横向力量时保持其完整性的能力。通过在设计和规划中优先考虑横向稳定性，我们可以创造更安全的建筑、更可靠的车辆和更健康的生态系统。随着我们的世界不断发展并面临新挑战，对横向稳定性的全面理解的需求只会愈加强烈，突显了它在促进人造和自然系统韧性方面的重要性。