windage area

简明释义

受风面积

英英释义

例句

1.The architect considered the windage area when designing the building to withstand strong winds.

建筑师在设计建筑时考虑了风偏面积以抵御强风。

2.The engineer designed the vehicle to minimize its windage area for better fuel efficiency.

工程师设计了这辆车，以最小化其风偏面积以提高燃油效率。

3.The sniper calculated the windage area to ensure his shot was accurate.

狙击手计算了风偏面积以确保他的射击准确。

4.In sailing, understanding the windage area of your boat can help optimize speed.

在帆船运动中，了解你船只的风偏面积可以帮助优化速度。

5.During the race, the cyclist adjusted their position to reduce the windage area against the wind.

在比赛中，骑自行车的人调整了他们的位置，以减少与风的风偏面积。

作文

In the world of physics and engineering, understanding the dynamics of objects in motion is crucial. One important aspect of this study is the concept of the windage area, which refers to the surface area of an object that is exposed to the wind or air resistance while it is moving. This area plays a significant role in determining how much drag force an object will experience as it travels through the atmosphere. For instance, when designing vehicles, whether they are cars, airplanes, or even bicycles, engineers must carefully consider the windage area to optimize performance and fuel efficiency.The windage area can vary greatly depending on the shape and orientation of the object. A streamlined design reduces the windage area and minimizes air resistance, allowing for smoother movement through the air. Conversely, objects with larger, more irregular shapes tend to have a higher windage area, resulting in greater drag and potential energy loss. This principle is not only applicable to vehicles but also to sports equipment, such as golf balls and racing bicycles, where aerodynamics significantly influence performance.Furthermore, the windage area is vital in military applications, particularly in the design of projectiles and missiles. The efficiency of these weapons often depends on their ability to cut through the air with minimal resistance. Engineers must calculate the windage area to ensure that the projectile maintains its intended trajectory and reaches its target effectively. Any increase in the windage area can lead to deviations from the planned path, making precision targeting more challenging.In addition to engineering and military contexts, the windage area concept is also relevant in meteorology and environmental science. Understanding how various structures, from skyscrapers to wind turbines, interact with wind patterns can help in designing buildings that are more resilient to strong winds. The windage area of these structures affects how wind flows around them, which can influence factors such as pressure differences and potential structural damage during storms.Overall, the windage area is a fundamental concept that intersects multiple fields, from engineering to environmental science. By comprehensively understanding this term, one can appreciate its implications in real-world applications. Whether optimizing a vehicle's design for better fuel efficiency or ensuring the stability of a tall building against high winds, the windage area remains a key factor in achieving success in various endeavors. As we continue to advance technology and improve our designs, the importance of considering the windage area will only grow, highlighting the need for ongoing research and innovation in this area.

在物理和工程的世界中，理解运动物体的动态至关重要。这个研究中的一个重要方面是“风阻面积”的概念，它指的是一个物体在运动时暴露于风或空气阻力的表面积。这个面积在确定物体在穿越大气时会遭受多少阻力方面起着重要作用。例如，在设计车辆时，无论是汽车、飞机还是自行车，工程师必须仔细考虑“风阻面积”，以优化性能和燃油效率。“风阻面积”可能因物体的形状和方向而有很大变化。流线型设计减少了“风阻面积”，并最小化空气阻力，从而允许物体更顺畅地穿过空气。相反，形状较大且不规则的物体往往具有更高的“风阻面积”，导致更大的阻力和潜在的能量损失。这一原理不仅适用于车辆，也适用于运动器材，例如高尔夫球和赛车自行车，其中空气动力学显著影响性能。此外，“风阻面积”在军事应用中也至关重要，特别是在弹药和导弹的设计中。这些武器的效率往往取决于它们切割空气的能力，以最小的阻力前进。工程师必须计算“风阻面积”，以确保弹药保持其预定轨迹并有效到达目标。任何“风阻面积”的增加都可能导致与计划路径的偏离，使精确打击变得更加困难。除了工程和军事背景外，“风阻面积”的概念在气象学和环境科学中也相关。理解各种结构（从摩天大楼到风力涡轮机）如何与风模式相互作用，可以帮助设计出更能抵御强风的建筑物。这些结构的“风阻面积”影响风在它们周围的流动，这可能影响压力差异和在风暴中潜在的结构损坏等因素。总的来说，“风阻面积”是一个基本概念，交叉多个领域，从工程到环境科学。通过全面理解这个术语，人们可以欣赏它在现实世界应用中的意义。无论是优化车辆设计以提高燃油效率，还是确保高楼在强风下的稳定性，“风阻面积”始终是实现各种努力成功的关键因素。随着我们技术的不断进步和设计的改进，考虑“风阻面积”的重要性只会增加，这突显了在这一领域持续研究和创新的必要性。