aerodynamic property

简明释义

空气动力性能

英英释义

例句

1.A bicycle's aerodynamic property can significantly affect its speed.

自行车的空气动力学特性会显著影响其速度。

2.The design of the car was optimized to enhance its aerodynamic property.

这辆车的设计经过优化，以增强其空气动力学特性。

3.Research on the aerodynamic property of wings helps improve fuel efficiency.

对机翼空气动力学特性的研究有助于提高燃油效率。

4.The aerodynamic property of a building can reduce wind resistance.

建筑物的空气动力学特性可以减少风阻。

5.Engineers test various shapes to find the best aerodynamic property for the aircraft.

工程师测试不同的形状，以找到最佳的空气动力学特性用于飞机。

作文

The study of flight and the behavior of objects moving through air has always fascinated scientists and engineers alike. One critical aspect of this study is the concept of aerodynamic property, which refers to the characteristics of an object that affect its ability to move through air efficiently. Understanding these properties is essential for designing everything from airplanes to cars, and even sports equipment. In this essay, I will explore the significance of aerodynamic property in various fields, how it impacts performance, and the innovations that have emerged as a result of this understanding.In the field of aviation, the importance of aerodynamic property cannot be overstated. Airplanes are designed with specific shapes that minimize drag and maximize lift. The wings of an aircraft are meticulously crafted to ensure that air flows smoothly over them, allowing the plane to ascend and maintain altitude. Engineers use wind tunnels to test different designs and refine the aerodynamic property of their models before they ever take to the skies. This rigorous testing process ultimately leads to safer and more efficient aircraft, which can travel longer distances while consuming less fuel.Similarly, in the automotive industry, the aerodynamic property of vehicles plays a crucial role in their performance. Cars are designed to cut through the air with minimal resistance, which not only enhances speed but also improves fuel efficiency. For example, sports cars often feature sleek designs with low profiles and smooth contours to optimize their aerodynamic property. Manufacturers invest heavily in research and development to create vehicles that perform well at high speeds while maintaining stability and control.Moreover, the impact of aerodynamic property extends beyond transportation. In the realm of sports, athletes benefit from equipment designed with aerodynamics in mind. Cyclists, for instance, wear specialized clothing and use streamlined bikes to reduce drag, allowing them to achieve higher speeds. Similarly, swimmers utilize suits designed to enhance their aerodynamic property in water, enabling them to glide more efficiently through the pool. These advancements highlight how understanding aerodynamics can lead to improved performance and competitive advantages.Innovations in technology have also contributed to our understanding of aerodynamic property. Computational fluid dynamics (CFD) allows engineers to simulate airflow around objects, providing insights that were once only attainable through physical testing. This technology has revolutionized the design process, enabling the creation of more efficient shapes and structures. As we continue to push the boundaries of what is possible, the importance of aerodynamic property will only grow.In conclusion, the concept of aerodynamic property is fundamental in various fields, from aviation and automotive design to sports and technology. By understanding and optimizing these properties, we can create safer, more efficient vehicles, improve athletic performance, and innovate in ways that were previously unimaginable. As we look to the future, continued research and development in this area will undoubtedly lead to exciting advancements that will shape our world in profound ways.

飞行和物体在空气中运动的行为一直吸引着科学家和工程师。这个研究中一个关键的方面是aerodynamic property的概念，它指的是影响物体有效通过空气的能力的特性。理解这些特性对于设计从飞机到汽车，甚至是体育器材都是至关重要的。在这篇文章中，我将探讨aerodynamic property在各个领域的重要性，它如何影响性能，以及由此产生的创新。在航空领域，aerodynamic property的重要性不容小觑。飞机的设计具有特定的形状，以最小化阻力并最大化升力。飞机的机翼经过精心设计，以确保空气顺畅地流过，从而使飞机能够上升并保持高度。工程师们使用风洞测试不同的设计，并在模型飞行之前优化其aerodynamic property。这一严格的测试过程最终导致了更安全、更高效的飞机，能够在消耗更少燃料的情况下飞行更长的距离。同样，在汽车行业，车辆的aerodynamic property在其性能中也起着至关重要的作用。汽车被设计成以最小的阻力切割空气，这不仅提高了速度，还改善了燃油效率。例如，跑车通常采用流线型设计，低矮的轮廓和平滑的轮廓，以优化其aerodynamic property。制造商在研发上投入大量资金，以创造在高速下表现良好，同时保持稳定性和控制的车辆。此外，aerodynamic property的影响超越了交通运输。在体育领域，运动员受益于以空气动力学为基础设计的装备。例如，骑自行车的人穿着专门的服装，使用流线型的自行车以减少阻力，使他们能够达到更高的速度。同样，游泳运动员利用设计来增强其在水中的aerodynamic property的泳衣，使他们能够更加高效地在泳池中滑行。这些进步突显了理解空气动力学如何带来更好的表现和竞争优势。技术的创新也促进了我们对aerodynamic property的理解。计算流体动力学（CFD）使工程师能够模拟物体周围的气流，提供了以前只能通过物理测试获得的见解。这项技术彻底改变了设计过程，使得创建更高效的形状和结构成为可能。随着我们不断突破可能性的界限，aerodynamic property的重要性只会增加。总之，aerodynamic property的概念在航空、汽车设计、体育和技术等多个领域都是基础性的。通过理解和优化这些特性，我们可以创造出更安全、更高效的车辆，提高运动表现，并以以前无法想象的方式进行创新。展望未来，在这一领域的持续研究和发展无疑将带来激动人心的进展，深刻塑造我们的世界。