air weight

简明释义

钻柱悬于空气中之重量;

英英释义

例句

1.The airline charges based on the air weight rather than the actual weight.

航空公司根据空重而不是实际重量收费。

2.Understanding air weight can help you save money on freight.

理解空重可以帮助你节省货运费用。

3.When calculating the air weight, make sure to include all dimensions.

计算空重时，确保包含所有尺寸。

4.They used a special calculator to find the air weight of the shipment.

他们使用特殊计算器来找出货物的空重。

5.The air weight of the package is crucial for determining shipping costs.

包裹的空重对于确定运费至关重要。

作文

Understanding the concept of air weight is essential in various fields, particularly in physics and engineering. The term air weight refers to the weight of an object when it is subjected to the buoyant force of air. This concept is crucial for understanding how objects behave in different environments, especially when considering factors like gravity and density.When we talk about air weight, we often relate it to the principles of buoyancy. Buoyancy is the upward force that a fluid exerts on an object that is submerged in it. In the case of air, this means that lighter objects will experience a greater buoyant force, which can make them seem lighter than they actually are. This phenomenon is particularly important in aviation, where the weight of an aircraft must be carefully calculated to ensure safe flight.For example, consider a helium balloon. The air weight of the balloon is less than the weight of the air it displaces, which causes it to rise. This illustrates how air weight can affect the behavior of objects in the atmosphere. Similarly, engineers must account for air weight when designing structures or vehicles that will be exposed to air pressure and buoyancy.Moreover, understanding air weight is not limited to physical objects; it also applies to the concept of weightlessness experienced in outer space. In microgravity environments, the apparent air weight of objects is significantly reduced, leading to unique challenges for astronauts. They must adapt to these conditions, as traditional notions of weight and balance do not apply in the same way as they do on Earth.In addition to its scientific implications, the idea of air weight can also be metaphorically applied to our daily lives. For instance, we often feel the weight of our responsibilities and challenges. However, just like objects in air, we can find ways to lighten our burdens. By seeking support from friends and family, practicing mindfulness, or even adjusting our perspectives, we can reduce the air weight of our emotional and mental loads.In conclusion, the concept of air weight serves as a fascinating intersection of science and everyday life. Whether we are discussing the mechanics of flight, the experiences of astronauts, or the metaphorical weight of our responsibilities, understanding air weight allows us to gain deeper insights into how we interact with the world around us. As we continue to explore and learn about this concept, we can apply its principles to enhance our understanding of both physical phenomena and personal challenges.

理解air weight这个概念在多个领域中至关重要，特别是在物理学和工程学中。air weight这个术语指的是一个物体在受到空气浮力作用时的重量。这个概念对理解物体在不同环境中的行为非常关键，尤其是在考虑重力和密度等因素时。当我们谈到air weight时，我们通常会将其与浮力原理联系在一起。浮力是流体对浸入其中的物体施加的向上力。在空气的情况下，这意味着较轻的物体将经历更大的浮力，这可能使它们看起来比实际重量更轻。这种现象在航空中尤为重要，因为飞机的重量必须仔细计算以确保安全飞行。例如，考虑一个氦气球。这个气球的air weight小于它排开的空气的重量，这导致它上升。这说明了air weight如何影响物体在大气中的行为。同样，工程师在设计将暴露于空气压力和浮力的结构或车辆时，也必须考虑air weight。此外，理解air weight不仅限于物理对象；它还适用于外太空中体验到的失重概念。在微重力环境中，物体的显著air weight大大减少，这给宇航员带来了独特的挑战。他们必须适应这些条件，因为传统的重量和平衡观念在地球上并不适用。除了科学意义外，air weight的想法也可以隐喻性地应用于我们的日常生活。例如，我们常常感到责任和挑战的重量。然而，就像空气中的物体一样，我们可以找到减轻负担的方法。通过寻求朋友和家人的支持、练习正念，甚至调整我们的观点，我们可以减少情感和心理负担的air weight。总之，air weight的概念作为科学与日常生活之间的迷人交集。无论我们是在讨论飞行的力学、宇航员的经历，还是我们责任的隐喻重量，理解air weight使我们能够更深入地洞察我们与周围世界的互动。随着我们继续探索和学习这一概念，我们可以将其原则应用于增强我们对物理现象和个人挑战的理解。