windage loss

简明释义

风损

英英释义

例句

1.Manufacturers are constantly looking for ways to reduce windage loss 风阻损失 in their products to meet regulatory standards.

制造商不断寻找减少其产品中风阻损失 windage loss的方法，以符合监管标准。

2.The engineer explained that the design of the turbine must minimize windage loss 风阻损失 to improve efficiency.

工程师解释说，涡轮的设计必须尽量减少风阻损失 windage loss以提高效率。

3.When calculating the energy efficiency of the system, we must account for windage loss 风阻损失 caused by air resistance.

在计算系统的能效时，我们必须考虑由于空气阻力造成的风阻损失 windage loss。

4.The boat's hull was streamlined to reduce windage loss 风阻损失 and increase speed on the water.

船体经过流线型设计，以减少风阻损失 windage loss并提高水上的速度。

5.In racing, every millisecond counts, so teams focus on reducing windage loss 风阻损失 in their vehicle designs.

在赛车中，每毫秒都很重要，因此车队专注于减少他们车辆设计中的风阻损失 windage loss。

作文

In the field of physics and engineering, the term windage loss refers to the energy that is lost due to the resistance encountered by an object moving through air. This phenomenon can be particularly significant in various applications, including aerodynamics, automotive design, and even in the realm of sports. Understanding windage loss is essential for optimizing performance and improving efficiency in these fields.When an object moves through the air, it displaces the air molecules in its path. This displacement creates a drag force that opposes the motion of the object. The faster the object moves, the greater the amount of air it must push aside, leading to increased windage loss. For example, in the automotive industry, engineers strive to design vehicles that minimize drag. By streamlining the shape of a car, they can reduce the windage loss, allowing the vehicle to achieve higher speeds with less fuel consumption.In aviation, windage loss plays a crucial role in the design of aircraft. Engineers analyze the aerodynamic properties of an airplane to ensure that it can fly efficiently. A well-designed wing can significantly reduce windage loss, enabling the aircraft to maintain lift while using less power. This is why modern airplanes often have sleek, elongated shapes that help them cut through the air more effectively.Sports also provide an interesting context in which to consider windage loss. Athletes, especially those involved in racing sports like cycling or running, are constantly looking for ways to improve their performance. One strategy is to wear specialized clothing that reduces drag. Cyclists, for instance, often wear tight-fitting suits designed to minimize windage loss, allowing them to travel faster with less effort.Moreover, windage loss is not limited to large objects; it can also affect smaller items, such as projectiles. In shooting sports, the trajectory of a bullet can be influenced by the air resistance it encounters. Marksmen must take into account the windage loss when calculating the aim of their shots, especially over long distances.In summary, windage loss is a critical concept that affects many areas of science and engineering. Whether it’s in the design of vehicles, aircraft, or sports equipment, understanding how to minimize this loss can lead to significant improvements in efficiency and performance. As technology advances, we continue to find innovative ways to address windage loss and enhance our capabilities across various disciplines. By recognizing the importance of this phenomenon, we can better appreciate the intricacies of design and performance optimization in our everyday lives.

在物理和工程领域，术语风阻损失指的是物体在空气中移动时所遭遇的阻力导致的能量损失。这种现象在气动学、汽车设计甚至体育领域等各种应用中可能特别显著。理解风阻损失对于优化性能和提高这些领域的效率至关重要。当一个物体在空气中移动时，它会排开路径中的空气分子。这种位移产生了一个与物体运动相反的阻力。物体移动得越快，它必须推开的空气就越多，从而导致风阻损失增加。例如，在汽车工业中，工程师们努力设计能够最小化阻力的车辆。通过流线型设计汽车的形状，他们可以减少风阻损失，使车辆以更少的燃料消耗达到更高的速度。在航空领域，风阻损失在飞机设计中起着至关重要的作用。工程师分析飞机的空气动力学特性，以确保其能够高效飞行。设计良好的机翼可以显著减少风阻损失，使飞机在使用更少的动力的情况下保持升力。这就是现代飞机通常具有流线型、细长形状的原因，因为这种形状有助于它们更有效地穿过空气。体育运动也提供了一个有趣的背景来考虑风阻损失。运动员，特别是在赛车运动如自行车或跑步中，始终在寻找提高表现的方法。一种策略是穿着专门设计的衣物，以减少阻力。例如，自行车手通常穿着紧身服，以最小化风阻损失，使他们能够以更少的努力更快地行驶。此外，风阻损失不仅限于大型物体；它也可以影响较小的物品，例如弹丸。在射击运动中，子弹的轨迹可能受到它所遇到的空气阻力的影响。射手在计算射击瞄准时必须考虑风阻损失，尤其是在远距离射击时。总之，风阻损失是一个在科学和工程的许多领域都影响重大的关键概念。无论是在车辆、飞机还是运动设备的设计中，理解如何最小化这种损失可以带来效率和性能的显著改善。随着技术的进步，我们继续找到创新的方法来解决风阻损失问题，并增强我们在各个学科中的能力。通过认识到这一现象的重要性，我们可以更好地欣赏日常生活中设计和性能优化的复杂性。