heeling magnet

简明释义

倾斜自差校正磁铁倾差校正磁铁

英英释义

例句

1.When testing the new boat, the team made sure to include a heeling magnet for better performance.

在测试新船时，团队确保包括一个倾斜磁铁以提高性能。

2.Engineers designed a new type of heeling magnet that is more efficient and responsive to changes in the ship's angle.

工程师设计了一种新型的倾斜磁铁，其对船舶角度变化的反应更高效。

3.The ship's stability was enhanced by the use of a heeling magnet, which helped to counteract the forces of the wind.

船的稳定性通过使用倾斜磁铁得到了增强，有助于抵消风的力量。

4.During the storm, the captain activated the heeling magnet to maintain the vessel's upright position.

在暴风雨期间，船长启动了倾斜磁铁以保持船只的直立姿态。

5.The heeling magnet is essential for ensuring that cargo ships do not tip over in rough seas.

在恶劣海况下，倾斜磁铁对于确保货船不倾覆至关重要。

作文

In the world of physics and engineering, the term heeling magnet refers to a specific type of magnet used to stabilize and control the orientation of objects, particularly in maritime applications. The concept of heeling is crucial when dealing with vessels that are subject to the forces of wind and water. A heeling magnet serves to counteract these forces by providing a magnetic force that helps maintain the vessel's upright position. This is especially important for ensuring the safety and efficiency of sailing ships, where balance is key to performance. The heeling magnet works on the principle of magnetism, where opposite poles attract and like poles repel. By strategically placing these magnets within the structure of a ship, engineers can create a system that actively responds to changes in the vessel's angle due to external pressures. For example, if a ship begins to tilt to one side due to strong winds, the heeling magnet can adjust its magnetic field to pull the ship back into a more stable position. This dynamic response is essential for preventing capsizing and ensuring that the ship remains functional under various conditions.Moreover, the use of heeling magnets is not limited to maritime contexts. They can also be applied in various fields such as robotics and aerospace engineering. In robotics, for instance, maintaining balance is vital for the functionality of bipedal robots. The integration of heeling magnets in these robots can enhance their stability, allowing them to navigate uneven terrains without falling over. Similarly, in aerospace applications, heeling magnets can assist in stabilizing aircraft during turbulence, improving passenger comfort and safety.The development and implementation of heeling magnets have evolved significantly over the years. With advancements in materials science, modern magnets are becoming more powerful and efficient. This progress allows for smaller and lighter designs that can still provide the necessary stabilization without adding excessive weight to the vessel or vehicle. As we continue to innovate in this area, we can expect to see even more applications for heeling magnets across various industries.In conclusion, the heeling magnet plays a crucial role in maintaining stability and balance in various applications, particularly in maritime environments. Its ability to counteract external forces makes it an invaluable tool for ensuring safety and efficiency. As technology advances, the potential uses for heeling magnets will likely expand, leading to new innovations that enhance our understanding and application of magnetic forces in everyday life. Understanding the significance of heeling magnets not only enriches our knowledge of physics but also highlights the importance of engineering solutions in real-world scenarios.

在物理和工程的世界中，术语heeling magnet指的是一种特定类型的磁铁，用于稳定和控制物体的方向，特别是在海洋应用中。倾斜的概念在处理受风和水力影响的船只时至关重要。heeling magnet通过提供一种磁力来抵消这些力量，帮助保持船只的直立位置。这对于确保帆船的安全和效率尤为重要，因为平衡是性能的关键。heeling magnet的工作原理基于磁性，相反的极吸引，而相同的极则排斥。通过在船只的结构内战略性地放置这些磁铁，工程师可以创建一个主动响应外部压力变化的系统。例如，如果船只因强风而开始向一侧倾斜，heeling magnet可以调整其磁场，将船只拉回到更稳定的位置。这种动态响应对于防止翻船和确保船只在各种条件下保持功能至关重要。此外，heeling magnets的使用并不限于海洋环境。它们也可以应用于机器人和航空航天工程等各个领域。例如，在机器人技术中，维持平衡对双足机器人功能至关重要。在这些机器人中集成heeling magnets可以增强它们的稳定性，使它们能够在不摔倒的情况下导航不平坦的地形。同样，在航空航天应用中，heeling magnets可以帮助在湍流中稳定飞机，提高乘客的舒适度和安全性。随着材料科学的发展，heeling magnets的开发和实施经历了显著的演变。现代磁铁变得越来越强大和高效。这种进步允许更小、更轻的设计，仍然能够提供必要的稳定性，而不会给船只或车辆增加过多的重量。随着我们在这一领域的持续创新，我们可以期待看到heeling magnets在各个行业中的更多应用。总之，heeling magnet在维护各种应用中的稳定性和平衡方面发挥着至关重要的作用，特别是在海洋环境中。它抵消外部力量的能力使其成为确保安全和效率的宝贵工具。随着技术的进步，heeling magnets的潜在用途可能会扩展，从而导致新的创新，增强我们对日常生活中磁力的理解和应用。理解heeling magnets的重要性不仅丰富了我们对物理学的知识，还强调了工程解决方案在现实场景中的重要性。