weight displacement

简明释义

吨位排水量

英英释义

例句

1.In designing the boat, the team focused on weight displacement to improve stability on water.

在设计船只时，团队专注于重量位移以提高水上的稳定性。

2.In marine engineering, weight displacement affects how a ship floats and handles waves.

在海洋工程中，重量位移影响船只的浮力和波浪处理能力。

3.The physics class demonstrated weight displacement using a scale and various weights.

物理课通过使用天平和各种重量演示了重量位移。

4.The engineer calculated the weight displacement to ensure the bridge could support heavy vehicles.

工程师计算了重量位移以确保桥梁能够承受重型车辆。

5.Understanding weight displacement is crucial for architects when constructing tall buildings.

理解重量位移对建筑师在建造高楼时至关重要。

作文

In the field of physics and engineering, the concept of weight displacement plays a crucial role in understanding how objects interact with forces. Weight displacement refers to the phenomenon where the weight of an object is supported or counterbalanced by the fluid it displaces when submerged. This principle is not only fundamental in designing ships and submarines but also applies to various everyday scenarios, such as when we step into a bathtub filled with water. As our body enters the tub, we displace a certain volume of water, which causes the water level to rise. The principle of weight displacement is rooted in Archimedes' principle, which states that a body immersed in a fluid experiences an upward buoyant force equal to the weight of the fluid displaced by the body. This principle explains why some objects float while others sink. For instance, a large ship can float on water despite its massive weight because its hull is designed to displace enough water to counterbalance its weight. The shape and design of the hull are critical in maximizing weight displacement and ensuring stability on the water. Understanding weight displacement is also vital in the construction of buildings and other structures. Engineers must consider how the weight of a building will affect the ground beneath it. If a building is too heavy for the soil it sits on, it can lead to structural failure. Thus, engineers often conduct soil tests to determine the weight capacity of the ground and ensure that the building's weight can be adequately supported through proper weight displacement. Moreover, the concept of weight displacement extends beyond just physical objects. In sports, athletes often use weight displacement to enhance their performance. For example, in diving, a diver must skillfully manage their body's position and weight to create the least resistance when entering the water. By understanding how their movements affect weight displacement, divers can achieve smoother entries and better scores. In conclusion, weight displacement is a fundamental concept that affects various aspects of our lives, from engineering and architecture to sports and daily activities. A deeper understanding of this principle allows us to appreciate the delicate balance between weight and buoyancy, enabling us to design better structures and improve our performance in various fields. As we continue to explore the intricacies of physics, the importance of weight displacement will undoubtedly remain a key topic in our understanding of the physical world.

在物理和工程领域，重量位移的概念在理解物体如何与力相互作用方面起着至关重要的作用。重量位移是指当物体浸入液体中时，其重量被液体所支撑或抵消的现象。这个原理不仅在设计船只和潜艇时至关重要，而且还适用于各种日常场景，例如当我们走进装满水的浴缸时。当我们的身体进入浴缸时，我们会排开一定体积的水，从而导致水位上升。重量位移的原理源于阿基米德原理，该原理指出，浸入流体中的物体会经历一个向上的浮力，等于物体排开的流体的重量。这个原理解释了为什么一些物体会漂浮而另一些物体会下沉。例如，一艘大型船只尽管重量庞大，但仍然可以在水面上漂浮，因为它的船体设计能够排开足够的水以抵消其重量。船体的形状和设计对于最大化重量位移和确保在水面上的稳定性至关重要。理解重量位移在建筑和其他结构的建造中也至关重要。工程师必须考虑建筑物的重量将如何影响其下方的地面。如果一座建筑对其所处的土壤过于沉重，则可能会导致结构失效。因此，工程师通常会进行土壤测试，以确定地面的承重能力，并确保建筑物的重量能够通过适当的重量位移得到充分支撑。此外，重量位移的概念不仅限于物理物体。在体育运动中，运动员通常利用重量位移来提高他们的表现。例如，在跳水中，跳水运动员必须巧妙地管理自己身体的位置和重量，以便在进入水面时产生最小的阻力。通过理解他们的动作如何影响重量位移，跳水运动员可以实现更平滑的入水和更好的得分。总之，重量位移是一个基本概念，影响着我们生活的各个方面，从工程和建筑到体育和日常活动。对这一原理的深入理解使我们能够欣赏重量和浮力之间的微妙平衡，从而使我们能够设计更好的结构并提高我们在各个领域的表现。随着我们继续探索物理学的复杂性，重量位移的重要性无疑将继续成为我们理解物质世界的关键主题。