displaced weight

简明释义

排水重量

英英释义

例句

1.The displaced weight 位移重量 of the air in the balloon helps it to rise.

气球中的 displaced weight 位移重量 帮助它上升。

2.During the experiment, we measured the displaced weight 位移重量 of the water to determine the object's density.

在实验中，我们测量了水的 displaced weight 位移重量 以确定物体的密度。

3.When lifting a heavy object, it's important to consider the displaced weight 位移重量 to prevent injury.

在搬运重物时，考虑到 displaced weight 位移重量 是很重要的，以防止受伤。

4.The concept of displaced weight 位移重量 is crucial when designing ships to ensure they float properly.

在设计船只时，displaced weight 位移重量 的概念至关重要，以确保它们能正常浮起。

5.In engineering, the displaced weight 位移重量 of a structure can affect its stability.

在工程学中，结构的 displaced weight 位移重量 可能会影响其稳定性。

作文

In the realm of physics and engineering, the concept of displaced weight plays a crucial role in understanding how objects interact with fluids. When an object is submerged in a fluid, it displaces a volume of that fluid equivalent to its own volume. This phenomenon is governed by Archimedes' principle, which states that the upward buoyant force that acts on a submerged object is equal to the weight of the fluid that the object displaces. Therefore, the displaced weight refers to the weight of the fluid that has been moved aside by the submerged object.To illustrate this concept, consider a simple example of a solid block of wood placed in water. As the block sinks, it pushes away some of the water, creating a space for itself. The amount of water pushed aside is directly related to the size and shape of the block. If the block weighs less than the weight of the water it displaces, it will float; if it weighs more, it will sink. This relationship between weight and buoyancy is foundational in various applications, from shipbuilding to designing underwater vehicles.Understanding displaced weight is not only essential in theoretical physics but also has practical implications in everyday life. For example, when designing boats or ships, engineers must carefully calculate the displaced weight to ensure that the vessel can carry the intended load without sinking. If a boat is overloaded, it will displace more water than necessary, leading to instability and potential capsizing.Moreover, the principle of displaced weight is also evident in the design of swimming pools and water parks. The water level in these facilities rises as more people enter the pool. The additional weight of the people displaces an equivalent volume of water, which is why the water spills over if the pool is too full. This simple observation highlights the everyday relevance of a concept that may initially seem confined to scientific discussions.In addition, the idea of displaced weight extends beyond physical objects in fluids. It can be metaphorically applied to various fields, including psychology and sociology. For instance, when considering the impact of a new policy or social change, one might analyze the 'weight' of the existing systems that are being displaced. Just as in physics, where the displaced weight of water determines whether an object floats or sinks, in social contexts, the displacement of established norms and practices can lead to significant changes in behavior and societal structure.In conclusion, the term displaced weight encapsulates a fundamental principle that governs the interaction between objects and fluids. Its implications are far-reaching, influencing everything from engineering designs to our understanding of social dynamics. By grasping the significance of displaced weight, we can better appreciate the intricate balance of forces at play in both the physical world and the complex systems of human interaction. Knowledge of this concept empowers us to innovate and adapt, ensuring that we can navigate the challenges posed by both nature and society effectively.

在物理和工程领域，displaced weight的概念在理解物体与流体之间的相互作用中起着至关重要的作用。当一个物体被浸没在流体中时，它会排开与其自身体积相等的流体体积。这个现象受阿基米德原理的支配，该原理指出，作用于浸没物体上的向上浮力等于物体排开的流体的重量。因此，displaced weight指的是被浸没物体所排开的流体的重量。为了说明这一概念，可以考虑一个简单的例子：将一个实心木块放入水中。当木块下沉时，它推开了一些水，为自己创造了空间。被推开的水量与木块的大小和形状直接相关。如果木块的重量小于它排开水的重量，它就会漂浮；如果它的重量更大，它就会下沉。这种重量与浮力之间的关系在从造船到设计水下车辆等各种应用中都是基础。理解displaced weight不仅在理论物理中至关重要，而且在日常生活中也具有实际意义。例如，在设计船只或船舶时，工程师必须仔细计算displaced weight以确保船只能够在不下沉的情况下承载预期的负荷。如果一艘船超载，它将排开比必要的更多的水，从而导致不稳定和潜在的倾覆。此外，displaced weight的原理在游泳池和水上乐园的设计中也很明显。这些设施中，当更多的人进入泳池时，水位会上升。人们的额外重量排开了相应体积的水，这就是为什么如果泳池太满，水会溢出来。这一简单的观察突显了一个最初看似局限于科学讨论的概念在日常生活中的相关性。此外，displaced weight的概念还超越了流体中的物理物体。它可以隐喻性地应用于各个领域，包括心理学和社会学。例如，在考虑新政策或社会变革的影响时，人们可能会分析正在被取代的现有系统的“重量”。就像在物理学中，displaced weight的水决定了一个物体是浮还是沉，在社会背景中，既定规范和实践的位移可以导致行为和社会结构的重大变化。总之，术语displaced weight概括了一个支配物体与流体之间相互作用的基本原理。它的影响深远，影响从工程设计到我们对社会动态的理解。通过掌握displaced weight的重要性，我们可以更好地欣赏在物理世界和人类互动复杂系统中所起的力量平衡。对这一概念的了解使我们能够创新和适应，确保我们能够有效应对自然和社会带来的挑战。