slip stream=slipstream

简明释义

滑流

英英释义

A slipstream is a stream of air that is created behind a moving object, such as a vehicle or an aircraft, which reduces drag and allows other objects to move more easily through the air.

滑流是一个在移动物体(如车辆或飞机)后面产生的气流,这种气流减少了阻力,使其他物体更容易穿过空气。

In a broader sense, slipstream can also refer to the effect of being in the wake of a leader in a competitive context, allowing one to gain advantage by following closely.

在更广泛的意义上,滑流也可以指在竞争环境中紧跟领导者的效果,使得跟随者能够通过紧密跟随获得优势。

例句

1.The marathon runner strategically positioned himself in the slipstream of the pack.

马拉松选手巧妙地站在了人群的气流尾流中。

2.The cyclist stayed close behind the leader to take advantage of the slip stream.

这名骑自行车的人紧跟在领骑者后面,以利用气流尾流

3.In car racing, drivers often follow each other closely to benefit from the slipstream effect.

在汽车比赛中,车手们经常紧密跟随,以利用气流尾流效应。

4.The slip stream created by the bus helped the following cyclists maintain speed.

公交车产生的气流尾流帮助后面的骑自行车者保持速度。

5.When flying, planes can save fuel by flying in the slip stream of another aircraft.

在飞行时,飞机可以通过在另一架飞机的气流尾流中飞行来节省燃料。

作文

In the world of aerodynamics and fluid dynamics, the term slip stream=slipstream plays a crucial role in understanding how objects move through air or water. The concept of slip stream=slipstream refers to the area of reduced pressure and turbulence that forms behind a moving object, such as an airplane or a car. This phenomenon occurs because the moving object displaces the surrounding fluid, creating a wake that can be harnessed for various purposes.For instance, in aviation, pilots often take advantage of the slip stream=slipstream effect when flying in formation. By positioning their aircraft in the wake of another, they can reduce their drag and improve fuel efficiency. This technique allows multiple planes to travel together with less energy expenditure, which is particularly beneficial during long flights. The leading aircraft creates a slip stream=slipstream that the following planes can utilize, resulting in a significant decrease in fuel consumption.Similarly, in the realm of motorsports, drivers often seek to position their vehicles within the slip stream=slipstream of competitors ahead of them. This practice not only enhances speed but also conserves fuel, allowing racers to maintain their competitive edge. By drafting behind another car, a driver can experience less air resistance, enabling them to accelerate more efficiently. This strategy is vital in racing scenarios where every second counts and can make the difference between winning and losing.The concept of slip stream=slipstream is not limited to aviation and motorsports; it also has applications in cycling. Cyclists often ride in a formation known as a peloton, where they benefit from the slip stream=slipstream created by the riders in front of them. This practice allows them to conserve energy while maintaining high speeds, making it easier to tackle long distances during races. Understanding how to effectively use the slip stream=slipstream can greatly enhance a cyclist's performance and endurance.Beyond sports, the principles behind slip stream=slipstream are also relevant in engineering and design. Engineers and designers can optimize vehicles and aircraft to minimize drag and maximize efficiency by studying the behavior of fluids around objects. Innovations in this field can lead to the development of more aerodynamic shapes and structures, contributing to advancements in technology and sustainability.In conclusion, the concept of slip stream=slipstream is integral to various fields, from aviation and motorsports to cycling and engineering. Understanding the dynamics of slip stream=slipstream allows individuals and industries to improve performance, increase efficiency, and reduce energy consumption. As we continue to explore and innovate in these areas, the importance of mastering the principles of slip stream=slipstream will only grow, highlighting the interconnectedness of science, technology, and practical application in our everyday lives.

在空气动力学和流体动力学的世界中,术语slip stream=slipstream在理解物体如何穿过空气或水的运动中起着至关重要的作用。slip stream=slipstream的概念是指在移动物体后方形成的低压和湍流区域,例如飞机或汽车。这种现象发生是因为移动物体排开周围的流体,产生一个可以用于各种目的的尾流。例如,在航空中,飞行员在编队飞行时常常利用slip stream=slipstream效应。通过将他们的飞机定位在另一架飞机的尾流中,他们可以减少阻力并提高燃油效率。这种技术使得多架飞机能够以更少的能量消耗一起飞行,这在长途飞行中特别有利。领先的飞机创造了一个slip stream=slipstream,后续的飞机可以利用,从而显著减少燃油消耗。同样,在赛车领域,车手通常寻求将他们的车辆置于前面竞争对手的slip stream=slipstream中。这种做法不仅增强了速度,还节省了燃料,使赛车手能够保持竞争优势。通过在另一辆车后面起草,驾驶员可以体验到更少的空气阻力,从而更有效地加速。这种策略在每一秒都至关重要的赛车场景中是至关重要的,可能决定胜负。slip stream=slipstream的概念不仅限于航空和赛车;它在自行车运动中也有应用。自行车手通常以一种称为集群(peloton)的队形骑行,他们从前面骑行者产生的slip stream=slipstream中受益。这种做法使他们能够在保持高速度的同时节省能量,使他们在比赛中更容易应对长距离。了解如何有效利用slip stream=slipstream可以大大提升自行车手的表现和耐力。除了运动,slip stream=slipstream背后的原理在工程和设计中也很相关。工程师和设计师可以通过研究流体在物体周围的行为来优化车辆和飞机,以最小化阻力并最大化效率。该领域的创新可以导致更具空气动力学形状和结构的发展,为技术和可持续性的进步做出贡献。总之,slip stream=slipstream的概念在航空、赛车、自行车和工程等多个领域中都是不可或缺的。理解slip stream=slipstream的动态使个人和行业能够提高性能、增加效率和减少能源消耗。随着我们继续在这些领域探索和创新,掌握slip stream=slipstream原理的重要性只会增加,突显出科学、技术和我们日常生活中实际应用之间的相互联系。