area of waterplane
简明释义
水线面面积
英英释义
例句
1.The designer calculated the area of waterplane to ensure the boat would float properly.
设计师计算了水面面积以确保船只能够正常浮动。
2.Engineers need to measure the area of waterplane when designing a new bridge over a river.
工程师在设计一座新桥时需要测量水面面积。
3.To improve efficiency, we must optimize the area of waterplane in our ship design.
为了提高效率,我们必须优化船舶设计中的水面面积。
4.The area of waterplane affects the hydrodynamic performance of ships.
船舶的水面面积影响其水动力性能。
5.Understanding the area of waterplane is crucial for determining the stability of a floating structure.
理解水面面积对于确定浮动结构的稳定性至关重要。
作文
The concept of the area of waterplane refers to the horizontal surface area of a watercraft that is in contact with the water. This term is particularly significant in naval architecture and marine engineering, as it plays a crucial role in determining the stability and buoyancy of a vessel. Understanding the area of waterplane is essential for designing ships and boats that can efficiently navigate through water while maintaining balance and preventing capsizing.When a ship is floating on the water, its weight is supported by the buoyant force exerted by the water beneath it. The area of waterplane directly influences this buoyant force. A larger waterplane area typically means that the vessel can support more weight without sinking, as the buoyant force increases with the area of the waterplane. Conversely, a smaller waterplane area may limit the amount of cargo or passengers a ship can carry, affecting its operational efficiency.Moreover, the area of waterplane also impacts the vessel's resistance to motion. When a ship moves through water, it displaces water equal to its area of waterplane. A larger area can lead to increased drag, which can slow down the vessel and require more power from the engine. Therefore, naval architects must carefully consider the dimensions of the waterplane area when designing a craft, balancing the need for stability with the desire for speed and efficiency.In addition to stability and resistance, the area of waterplane is also crucial during different phases of a vessel’s operation. For instance, during takeoff and landing for amphibious vehicles, the waterplane area must be optimized to ensure that the craft can transition smoothly between water and land. Similarly, for vessels operating in shallow waters, the area of waterplane must be designed to prevent grounding and ensure safe navigation.Furthermore, environmental factors can also influence the area of waterplane and its effectiveness. Waves, currents, and wind can all affect how a vessel interacts with the water surface. Understanding these dynamics is essential for mariners and engineers alike, as they must adapt their strategies based on varying conditions to maintain safety and performance.In conclusion, the area of waterplane is a fundamental aspect of maritime design and engineering. It not only determines the stability and buoyancy of a vessel but also affects its speed, maneuverability, and overall operational capabilities. As technology advances, the methods for calculating and optimizing the area of waterplane will continue to evolve, allowing for the creation of more efficient and safer watercraft. Whether for commercial shipping, recreational boating, or naval defense, understanding the implications of the area of waterplane is essential for anyone involved in the maritime industry. In summary, the area of waterplane (水面面积) is vital for ensuring that vessels are designed to operate effectively within their intended environments, balancing various design considerations to achieve optimal performance.
水面面积的概念指的是与水接触的水面上水平表面积。这个术语在海洋建筑和海洋工程中尤为重要,因为它在确定船只的稳定性和浮力方面起着关键作用。理解水面面积对于设计能够高效航行并保持平衡、防止倾覆的船只和小艇至关重要。当一艘船漂浮在水面上时,它的重量由水下的浮力支撑。水面面积直接影响这种浮力。较大的水面面积通常意味着船只可以在不下沉的情况下承载更多的重量,因为浮力随着水面面积的增加而增加。相反,较小的水面面积可能会限制船只可以携带的货物或乘客的数量,从而影响其操作效率。此外,水面面积还影响船只的运动阻力。当船只在水中移动时,它会排开等于其水面面积的水。较大的面积可能导致阻力增加,这可能会减慢船只的速度并需要更多的动力。因此,海洋建筑师在设计船只时必须仔细考虑水面面积的尺寸,以平衡稳定性和速度及效率的需求。除了稳定性和阻力外,水面面积在船只操作的不同阶段也至关重要。例如,在两栖车辆的起飞和着陆过程中,水面面积必须得到优化,以确保船只能顺利地在水和陆地之间过渡。同样,对于在浅水中航行的船只,水面面积必须设计以防止搁浅并确保安全航行。此外,环境因素也会影响水面面积及其有效性。波浪、潮流和风都可能影响船只与水面之间的相互作用。理解这些动态对于海员和工程师来说至关重要,因为他们必须根据变化的条件调整策略,以保持安全和性能。总之,水面面积是海洋设计和工程的基本方面。它不仅决定了船只的稳定性和浮力,还影响其速度、机动性和整体操作能力。随着技术的进步,计算和优化水面面积的方法将继续发展,从而创造出更高效和更安全的水上交通工具。无论是商业航运、休闲划船还是海军防御,理解水面面积的影响对于任何参与海洋产业的人都是必不可少的。总之,水面面积(水面面积)对于确保船只能够在其预定环境中有效运行至关重要,平衡各种设计考虑以实现最佳性能。
