submerged displacement

简明释义

水下排水量

英英释义

例句

1.The research focused on the effects of submerged displacement on underwater vehicles.

研究集中在浸没排水量对水下车辆的影响上。

2.In fluid mechanics, submerged displacement helps in understanding buoyancy forces acting on objects.

在流体力学中，浸没排水量有助于理解作用于物体的浮力。

3.The submerged displacement of the submerged part of the structure was measured to assess stability.

为了评估稳定性，测量了结构浸没部分的浸没排水量。

4.Understanding submerged displacement is crucial for designing efficient hulls in naval architecture.

理解浸没排水量对于海洋建筑中设计高效船体至关重要。

5.The engineer calculated the submerged displacement of the boat to ensure it would float properly.

工程师计算了船的浸没排水量以确保它能正常浮起。

作文

Understanding the concept of submerged displacement is essential in various fields, including engineering, marine biology, and environmental science. At its core, submerged displacement refers to the volume of water displaced by an object that is submerged underwater. This principle is derived from Archimedes' principle, which states that any object immersed in a fluid experiences an upward buoyant force equal to the weight of the fluid that it displaces. The implications of this concept are vast and varied, influencing not only the design of ships and submarines but also the study of aquatic ecosystems.In engineering, particularly naval architecture, understanding submerged displacement is crucial for designing vessels that can efficiently navigate through water. When a ship is designed, engineers must calculate the submerged displacement to ensure that the vessel can remain afloat while carrying its intended cargo. The weight of the ship, when combined with its cargo, must equal the weight of the water displaced. If the submerged displacement is not accurately calculated, the ship may either float too high, risking instability, or too low, leading to potential flooding.Moreover, in the field of marine biology, submerged displacement plays a vital role in understanding how aquatic organisms interact with their environment. For instance, fish and other marine animals utilize the principles of buoyancy to conserve energy while swimming. By understanding how much water their bodies displace, researchers can gain insights into the swimming patterns and behaviors of these creatures. This information is critical for conservation efforts, as it helps scientists understand the impact of environmental changes on aquatic life.Additionally, environmental scientists study submerged displacement to assess the effects of climate change on sea levels and aquatic habitats. As global temperatures rise, ice caps melt, and sea levels increase, understanding how submerged displacement changes can provide valuable data for predicting future ecological impacts. For example, as certain areas become submerged due to rising water levels, the displacement caused by new land formations or human-made structures can significantly alter local ecosystems.The significance of submerged displacement extends beyond scientific realms; it also has practical applications in everyday life. For example, when designing swimming pools or artificial lakes, architects must consider the submerged displacement of any objects placed within these bodies of water. This ensures that the structures are safe and functional, preventing overflow or structural failure.In conclusion, submerged displacement is a fundamental concept that intersects various disciplines, from engineering to environmental science. Its implications are far-reaching, affecting the design of vessels, the study of aquatic organisms, and our understanding of environmental changes. By grasping the importance of submerged displacement, we can better appreciate the complexities of our interactions with water and the ecosystems it supports.

理解“submerged displacement”这个概念在工程学、海洋生物学和环境科学等多个领域都是至关重要的。其核心内容是指被水淹没的物体所排开的水的体积。这个原则源自阿基米德原理，该原理指出，任何浸没在流体中的物体都会经历一个向上的浮力，其大小等于它排开的流体的重量。这个概念的影响广泛而多样，不仅影响船舶和潜艇的设计，还影响对水生生态系统的研究。在工程学，尤其是海洋建筑学中，理解submerged displacement对于设计能够有效航行的船只至关重要。当设计一艘船时，工程师必须计算submerged displacement以确保该船能够在承载预期货物的同时保持漂浮。船的重量与其货物的重量相加，必须等于排开的水的重量。如果submerged displacement没有准确计算，船可能会漂浮得过高，风险不稳定，或者漂浮得过低，导致潜在的淹水。此外，在海洋生物学领域，submerged displacement在理解水生生物如何与环境互动方面发挥着重要作用。例如，鱼类和其他海洋生物利用浮力原理来节省游泳时的能量。通过了解它们的身体排开了多少水，研究人员可以深入了解这些生物的游泳模式和行为。这些信息对于保护工作至关重要，因为它有助于科学家理解环境变化对水生生命的影响。此外，环境科学家研究submerged displacement以评估气候变化对海平面和水生栖息地的影响。随着全球气温上升，冰盖融化，海平面上升，了解submerged displacement的变化可以为预测未来生态影响提供宝贵数据。例如，随着某些地区因水位上升而被淹没，新形成的土地或人造结构所造成的位移可能显著改变当地生态系统。submerged displacement的重要性不仅限于科学领域，它在日常生活中也有实际应用。例如，在设计游泳池或人工湖时，建筑师必须考虑这些水体内放置的任何物体的submerged displacement。这确保了结构的安全和功能，防止溢出或结构失败。总之，submerged displacement是一个基本概念，交叉了多个学科，从工程到环境科学。它的意义深远，影响着船舶的设计、水生生物的研究以及我们对环境变化的理解。通过掌握submerged displacement的重要性，我们可以更好地欣赏我们与水及其支持的生态系统之间复杂的互动。