ship pendulum

简明释义

船用单摆式横倾指示器

英英释义

例句

1.Researchers are studying the effects of the ship pendulum 船舶摆锤 on fuel efficiency.

研究人员正在研究船舶摆锤 ship pendulum 对燃油效率的影响。

2.The engineer explained how the ship pendulum 船舶摆锤 helps stabilize the vessel in rough seas.

工程师解释了如何利用船舶摆锤 ship pendulum 在恶劣海况中稳定船只。

3.During the storm, the ship pendulum 船舶摆锤 was crucial in preventing capsizing.

在暴风雨中，船舶摆锤 ship pendulum 对防止翻船至关重要。

4.The captain adjusted the ship pendulum 船舶摆锤 to enhance the ship's balance.

船长调整了船舶摆锤 ship pendulum 以增强船只的平衡。

5.The design of the ship pendulum 船舶摆锤 has evolved significantly over the years.

随着时间的推移，船舶摆锤 ship pendulum 的设计发生了显著变化。

作文

The concept of a ship pendulum is not only fascinating but also crucial in understanding the dynamics of maritime navigation. A ship pendulum refers to the oscillation or swinging motion of a ship due to various external forces, such as waves, wind, and the ship’s own movement. This phenomenon can significantly impact the stability and safety of a vessel at sea. Understanding how a ship pendulum operates is essential for sailors and marine engineers alike, as it helps them predict and mitigate potential hazards during navigation.When a ship is at sea, it is constantly subjected to the forces of nature. Waves can cause the ship to tilt or roll, creating a pendulum-like effect. This motion can be particularly pronounced in larger vessels, where the center of gravity and buoyancy play critical roles in stability. The ship pendulum effect can lead to discomfort for passengers and crew, and in extreme cases, it can result in capsizing if the vessel is unable to right itself.To illustrate the importance of understanding the ship pendulum, consider the case of a large cargo ship navigating through rough seas. As the ship encounters high waves, it begins to sway side to side, mimicking the motion of a pendulum. If the captain does not account for this motion, the ship could lose its balance, leading to cargo shifting or even structural damage. Therefore, it is vital for the crew to monitor the ship pendulum dynamics and adjust their course and speed accordingly to maintain stability.Marine engineers have developed various technologies to counteract the effects of the ship pendulum. Stabilizers, for example, are devices that can be deployed to reduce rolling motion. These can include fins or gyroscopic systems that work to keep the ship upright and minimize the pendulum effect. By employing such technologies, ships can enhance safety and improve the overall experience for those on board.Moreover, training for sailors often includes lessons on how to respond to the ship pendulum effect. Knowledge of proper weight distribution, ballast management, and the use of sails or engines to counteract rolling can make a significant difference in handling a vessel during turbulent conditions. In essence, understanding the ship pendulum is not just an academic exercise; it is a practical necessity for anyone involved in maritime activities.In conclusion, the ship pendulum is a critical concept in maritime navigation that encompasses the oscillatory motion of a ship due to external forces. Recognizing the implications of this phenomenon can help sailors and marine engineers ensure safe and effective navigation. Through technology and training, the challenges posed by the ship pendulum can be managed, allowing for safer journeys across the world's oceans. As we continue to explore and expand our maritime capabilities, understanding the intricacies of a ship pendulum will remain a fundamental aspect of seafaring knowledge.

“船摆”这个概念不仅令人着迷，而且对于理解海洋导航的动态至关重要。“船摆”指的是由于各种外部力量（如波浪、风和船只自身运动）引起的船只的振荡或摆动。这种现象会显著影响船只在海上的稳定性和安全性。理解“船摆”的运作方式对水手和海洋工程师来说都是必不可少的，因为这有助于他们预测和减轻航行中的潜在危险。当船只在海上时，它不断受到自然力的作用。波浪会导致船只倾斜或滚动，产生类似于摆的效果。这种运动在较大船只中尤为明显，在这些船只中，重心和浮力在稳定性中起着关键作用。“船摆”效应可能导致乘客和船员的不适，在极端情况下，如果船只无法恢复平衡，甚至可能导致翻船。因此，船员必须监测“船摆”的动态，并相应调整航向和速度，以保持稳定。为了说明理解“船摆”的重要性，可以考虑一艘大型货轮在恶劣海况下航行的案例。当船只遇到高波时，它开始左右摇摆，模仿摆的运动。如果船长没有考虑到这种运动，船只可能会失去平衡，导致货物移动甚至结构损坏。因此，船员必须密切关注“船摆”的动态，并根据情况进行调整。海洋工程师开发了各种技术来抵消“船摆”的影响。例如，稳定器是一种可以部署以减少滚动运动的设备。这些可以包括鳍片或陀螺仪系统，旨在保持船只直立并最小化摆动效应。通过采用这些技术，船只可以提高安全性，并改善船上人员的整体体验。此外，水手的培训通常包括如何应对“船摆”效应的课程。了解正确的重量分配、压载管理，以及如何利用帆或发动机对抗滚动，可以在动荡条件下处理船只时产生显著差异。实际上，理解“船摆”不仅仅是学术研究，而是任何参与海事活动的人的实际必要性。总之，“船摆”是海洋导航中的一个关键概念，涵盖了由于外部力量引起的船只振荡运动。认识到这一现象的影响可以帮助水手和海洋工程师确保安全有效的航行。通过技术和培训，可以管理“船摆”带来的挑战，从而使跨越世界海洋的旅程更加安全。随着我们继续探索和扩展我们的海洋能力，理解“船摆”的复杂性将始终是航海知识的基本方面。