wind-induced motion

简明释义

风致运动

英英释义

例句

1.The engineers studied the effects of wind-induced motion on the bridge's stability during storms.

工程师们研究了在风暴期间，风引起的运动对桥梁稳定性的影响。

2.During the storm, the wind-induced motion of the sails was a sight to behold.

在风暴中，帆的风引起的运动真是令人惊叹的景象。

3.To ensure safety, the design of the building had to account for wind-induced motion.

为了确保安全，建筑设计必须考虑到风引起的运动。

4.The researchers measured the wind-induced motion of the trees in the park to understand their resilience.

研究人员测量了公园中树木的风引起的运动以了解它们的韧性。

5.The team used simulations to predict the wind-induced motion of the aircraft in turbulent conditions.

团队使用模拟来预测飞机在湍流条件下的风引起的运动。

作文

Wind is a powerful force of nature that can have significant effects on various objects and structures. One of the most fascinating phenomena associated with wind is what we refer to as wind-induced motion. This term describes the movement or displacement of an object caused by the force exerted by the wind. Understanding wind-induced motion is crucial in many fields, including engineering, architecture, and environmental science.In engineering, for instance, the design of bridges, buildings, and other structures must take into account the potential for wind-induced motion. Engineers use various methods to predict how much sway or vibration a structure might experience during strong winds. For example, skyscrapers are often designed with flexible materials that allow them to move slightly without sustaining damage. This flexibility helps to dissipate the energy from the wind, minimizing the risk of structural failure.Moreover, wind-induced motion can also be observed in natural environments. Trees, for example, exhibit wind-induced motion when they sway back and forth during a storm. This motion is not only a beautiful sight but also serves an important ecological function. The movement of trees can help disperse seeds and promote growth in surrounding vegetation. Additionally, the ability of trees to bend rather than break under the force of the wind is a testament to the evolutionary adaptations that have allowed them to thrive in windy conditions.In the world of sports, wind-induced motion plays a critical role as well. Athletes who participate in activities such as sailing, surfing, or paragliding must understand how to harness the power of the wind to their advantage. For example, sailors adjust their sails to maximize wind-induced motion in order to propel their boats forward. Similarly, surfers rely on the wind to create waves that they can ride. Knowledge of wind-induced motion can significantly enhance performance in these sports, making it an essential skill for athletes.Additionally, wind-induced motion has implications for renewable energy. Wind turbines, for example, are designed to convert the kinetic energy of the wind into electricity. The efficiency of these turbines relies heavily on understanding the principles of wind-induced motion. Engineers and scientists study how wind interacts with turbine blades to optimize their design and placement, ensuring that they capture as much energy as possible.In conclusion, wind-induced motion is a phenomenon that affects a wide range of disciplines, from architecture and engineering to ecology and sports. By studying and understanding this concept, we can better prepare for the challenges posed by wind and harness its power for various applications. Whether it is designing resilient structures, promoting ecological health, enhancing athletic performance, or generating renewable energy, recognizing the significance of wind-induced motion is essential for progress in our increasingly wind-affected world.

风是一种强大的自然力量，对各种物体和结构有显著影响。与风相关的一个最迷人的现象是我们所称的风引起的运动。这个术语描述了由风施加的力量引起的物体的运动或位移。理解风引起的运动在许多领域中至关重要，包括工程、建筑和环境科学。例如，在工程学中，桥梁、建筑物和其他结构的设计必须考虑到风引起的运动的潜在影响。工程师使用各种方法来预测在强风期间结构可能经历的摇摆或振动。例如，摩天大楼通常采用灵活的材料设计，使其能够在不受损伤的情况下轻微移动。这种灵活性有助于消散来自风的能量，最大限度地降低结构失效的风险。此外，在自然环境中也可以观察到风引起的运动。例如，当树木在风暴中前后摇摆时，它们表现出风引起的运动。这种运动不仅是一种美丽的景象，而且还具有重要的生态功能。树木的运动可以帮助传播种子，促进周围植被的生长。此外，树木在风力作用下弯曲而不是折断的能力，是它们在风条件下茁壮成长的进化适应的证明。在体育界，风引起的运动也发挥着关键作用。参与帆船、冲浪或滑翔等活动的运动员必须了解如何利用风的力量为自己服务。例如，水手调整他们的帆，以最大化风引起的运动，以推动他们的船前进。同样，冲浪者依赖风创造他们可以骑乘的波浪。对风引起的运动的知识可以显著提升这些运动中的表现，使其成为运动员必备的技能。此外，风引起的运动对可再生能源也有影响。例如，风力涡轮机旨在将风的动能转化为电力。这些涡轮机的效率在很大程度上依赖于理解风引起的运动的原理。工程师和科学家研究风如何与涡轮叶片相互作用，以优化其设计和位置，确保它们捕获尽可能多的能量。总之，风引起的运动是一个影响广泛领域的现象，从建筑和工程到生态和体育。通过研究和理解这一概念，我们可以更好地应对风带来的挑战，并利用其力量进行各种应用。无论是设计抗风的结构、促进生态健康、提升运动表现，还是产生可再生能源，认识到风引起的运动的重要性对于我们日益受到风影响的世界的进步至关重要。