attraction between adjacent ships
简明释义
运动中邻船互吸现象
英英释义
The gravitational or magnetic force that draws two nearby ships towards each other due to their proximity. | 由于相邻船只之间的接近而产生的引力或磁力,促使两艘船相互靠近。 |
例句
1.The captain explained the importance of understanding the attraction between adjacent ships to avoid collisions in crowded ports.
船长解释了理解相邻船只之间的吸引力的重要性,以避免在拥挤的港口发生碰撞。
2.During the training session, we learned how to calculate the attraction between adjacent ships when docking.
在培训课程中,我们学习了如何在靠港时计算相邻船只之间的吸引力。
3.Understanding the attraction between adjacent ships can help prevent accidents during heavy winds.
理解相邻船只之间的吸引力可以帮助防止在强风期间发生事故。
4.The engineers studied the attraction between adjacent ships to improve safety measures in maritime operations.
工程师们研究了相邻船只之间的吸引力,以改善海事操作中的安全措施。
5.The maritime regulations include guidelines on managing the attraction between adjacent ships in busy harbors.
海事法规包括有关在繁忙港口管理相邻船只之间的吸引力的指南。
作文
The phenomenon of attraction between adjacent ships is an intriguing subject that encompasses various aspects of physics and maritime operations. When two ships are moored or anchored close to each other, they exert forces on one another due to their masses and the surrounding water. This interaction can be attributed to gravitational forces, hydrodynamic effects, and even environmental factors such as wind and currents. Understanding this attraction between adjacent ships is essential for safe navigation and docking procedures.From a physical standpoint, the attraction between adjacent ships can primarily be explained through Newton's law of universal gravitation. Every object with mass attracts every other object with mass. In the case of ships, the gravitational pull is relatively small due to their distance apart, but it still exists. Additionally, when ships are in proximity, their hulls can create pressure differences in the water, leading to a phenomenon known as hydrodynamic attraction. This effect can cause vessels to move closer together, especially in confined spaces such as harbors or narrow channels.Moreover, the attraction between adjacent ships can have practical implications during docking maneuvers. For instance, when a ship approaches a dock, it must consider not only its own momentum but also the influence of nearby vessels. If two ships are too close, they may inadvertently collide or cause damage to one another. Therefore, mariners must be trained to account for this attraction between adjacent ships when planning their movements.Environmental factors can also play a significant role in the attraction between adjacent ships. Wind can push ships closer together or push them apart, depending on the direction and strength of the gusts. Similarly, currents can affect how ships behave in relation to one another. A strong current might cause ships to drift, increasing the risk of collisions if they are too close. Thus, understanding these external influences is crucial for maintaining safety in busy maritime areas.In addition to safety concerns, the attraction between adjacent ships can also impact operational efficiency. For example, in busy ports, the ability to manage the spacing between vessels can lead to smoother operations and reduced waiting times. Port authorities often implement guidelines to minimize the risks associated with this attraction, ensuring that ships are adequately spaced to prevent accidents while maximizing the use of available docking space.In conclusion, the attraction between adjacent ships is a multifaceted phenomenon that involves gravitational forces, hydrodynamic effects, and environmental influences. It is vital for mariners to understand these dynamics to ensure safe navigation and efficient port operations. As shipping traffic continues to grow worldwide, the importance of managing the attraction between adjacent ships will only increase, highlighting the need for ongoing research and training in this area. By enhancing our understanding of these interactions, we can contribute to safer and more efficient maritime practices.
相邻船只之间的吸引力是一个有趣的主题,涵盖了物理学和海事操作的各个方面。当两艘船靠近停泊或锚定时,由于它们的质量和周围的水,它们会相互施加力量。这种相互作用可以归因于引力、流体动力效应,甚至环境因素,如风和水流。理解这种相邻船只之间的吸引力对于安全导航和停靠程序至关重要。从物理角度来看,相邻船只之间的吸引力主要可以通过牛顿的万有引力定律来解释。每个有质量的物体都会吸引其他有质量的物体。在船只的情况下,由于距离较远,引力相对较小,但仍然存在。此外,当船只接近时,它们的船体可以在水中产生压力差,从而导致一种称为流体动力吸引的现象。这种效应可能导致船只更靠近,特别是在狭窄的空间,如港口或狭窄的航道中。此外,相邻船只之间的吸引力在停靠操作中也可能具有实际意义。例如,当一艘船靠近码头时,除了考虑自身的动量外,还必须考虑附近船只的影响。如果两艘船过于接近,它们可能会意外碰撞或造成彼此的损坏。因此,水手必须经过培训,以便在规划移动时考虑到这种相邻船只之间的吸引力。环境因素也可以在相邻船只之间的吸引力中发挥重要作用。风可以将船只推得更近或推得更远,具体取决于风的方向和强度。同样,水流也会影响船只之间的行为。强水流可能导致船只漂移,增加碰撞的风险,尤其是在它们过于靠近时。因此,理解这些外部影响对于在繁忙的海域保持安全至关重要。除了安全问题,相邻船只之间的吸引力还可以影响操作效率。例如,在繁忙的港口,管理船只之间的间距可以导致更顺畅的操作和减少等待时间。港口当局通常会实施指导方针,以最小化与这种吸引力相关的风险,确保船只之间有足够的间距,以防止事故,同时最大限度地利用可用的停靠空间。总之,相邻船只之间的吸引力是一个多方面的现象,涉及引力、流体动力效应和环境影响。水手了解这些动态对于确保安全导航和高效的港口操作至关重要。随着全球航运交通的持续增长,管理相邻船只之间的吸引力的重要性只会增加,这突显了在这一领域进行持续研究和培训的必要性。通过增强我们对这些相互作用的理解,我们可以为更安全、更高效的海事实践做出贡献。
相关单词
