lateral area above water

简明释义

水线上侧面积

英英释义

例句

1.To ensure safety, we must monitor the Lateral area above water for any signs of wear and tear.

为了确保安全，我们必须监测水面上方的侧面积是否有任何磨损迹象。

2.The architect designed the building with a large Lateral area above water to enhance its aesthetic appeal.

建筑师设计了一个拥有大水面上方的侧面积的建筑，以增强其美观性。

3.The Lateral area above water plays a crucial role in hydrodynamics, affecting how vessels navigate through waves.

水面上方的侧面积在水动力学中起着至关重要的作用，影响船只如何在波浪中航行。

4.The engineer calculated the Lateral area above water to determine the stability of the floating structure.

工程师计算了水面上方的侧面积以确定浮动结构的稳定性。

5.In our study, the Lateral area above water was significant for understanding the impact of wind on the boat's performance.

在我们的研究中，水面上方的侧面积对于理解风对船只性能的影响至关重要。

作文

The concept of the lateral area above water is particularly significant in various fields such as engineering, architecture, and environmental science. This term refers to the surface area of an object that is exposed to the atmosphere when it is partially submerged in water. Understanding this area is crucial for several reasons, including structural integrity, buoyancy calculations, and environmental impact assessments.In engineering, for instance, the lateral area above water plays a vital role in designing floating structures like docks, buoys, and ships. Engineers must calculate how much of the structure remains above the waterline to ensure stability and safety. If the lateral area is too small, the structure may become unstable and capsize. Conversely, if it is too large, it may create excessive drag or resistance against water currents, which can hinder performance.In the context of architecture, particularly for buildings near bodies of water, the lateral area above water can influence design choices. Architects must consider how much of the building will be visible above the waterline to maintain aesthetic appeal while also ensuring that the structure can withstand potential flooding. This consideration is especially important in areas prone to rising sea levels or extreme weather events. Thus, understanding the lateral area above water allows architects to create designs that are both functional and visually appealing.Environmental scientists also find the lateral area above water relevant when studying ecosystems. For example, when assessing the impact of pollutants on aquatic life, scientists need to understand how much of a given object—such as a boat or a floating platform—interacts with the water surface. The larger the lateral area, the more potential there is for contaminants to leach into the water, affecting fish and other organisms. Therefore, monitoring the lateral area above water helps in evaluating environmental risks and developing strategies for conservation.Moreover, the lateral area above water is essential in hydrodynamics, which is the study of fluids in motion. The behavior of waves and currents can be significantly influenced by the shape and size of objects that are partially submerged. For instance, a large lateral area can amplify wave action, leading to increased erosion along shorelines. By understanding these dynamics, researchers can better predict and mitigate the effects of coastal erosion and sediment transport.In summary, the lateral area above water is a multifaceted concept that intersects with various disciplines. Whether in engineering, architecture, environmental science, or hydrodynamics, understanding this area is crucial for making informed decisions that affect both human structures and natural ecosystems. As we continue to face challenges related to climate change and environmental sustainability, the importance of comprehending the lateral area above water will only grow, guiding us toward innovative solutions that balance human needs with ecological preservation.

“水面上方的侧面积”这一概念在工程、建筑和环境科学等多个领域中具有重要意义。该术语指的是物体在部分浸没于水中时暴露于大气中的表面积。理解这一面积对于多个原因至关重要，包括结构完整性、浮力计算和环境影响评估。例如，在工程学中，“水面上方的侧面积”在设计浮动结构，如码头、浮标和船只时发挥着至关重要的作用。工程师必须计算结构在水线以上的部分，以确保其稳定性和安全性。如果侧面积太小，结构可能会变得不稳定并翻覆；相反，如果侧面积过大，则可能会产生过多的阻力或对水流造成阻碍，从而影响性能。在建筑学的背景下，特别是靠近水体的建筑，水面上方的侧面积可能会影响设计选择。建筑师必须考虑建筑物在水线以上可见的部分，以保持美观，同时确保结构能够承受潜在的洪水。这种考虑在海平面上升或极端天气事件频发的地区尤其重要。因此，理解“水面上方的侧面积”使建筑师能够创造既实用又具有视觉吸引力的设计。环境科学家在研究生态系统时也发现“水面上方的侧面积”相关。例如，在评估污染物对水生生命的影响时，科学家需要了解给定物体（如船只或浮动平台）与水面之间的互动程度。侧面积越大，污染物渗入水中的潜力就越大，从而影响鱼类和其他生物。因此，监测“水面上方的侧面积”有助于评估环境风险并制定保护策略。此外，“水面上方的侧面积”在流体动力学中也是至关重要的，流体动力学是研究流动中的流体的学科。波浪和水流的行为可能会受到部分浸没物体的形状和大小的显著影响。例如，大的侧面积可能会放大波浪作用，导致沿海岸线的侵蚀加剧。通过理解这些动态，研究人员可以更好地预测和减轻沿海侵蚀和沉积物运输的影响。总之，“水面上方的侧面积”是一个多方面的概念，与多个学科交叉。无论是在工程、建筑、环境科学还是流体动力学中，理解这一面积对于做出影响人类结构和自然生态系统的明智决策至关重要。随着我们继续面临与气候变化和环境可持续性相关的挑战，理解“水面上方的侧面积”的重要性只会增加，引导我们朝着平衡人类需求与生态保护的创新解决方案迈进。