compensated compass

简明释义

补偿罗经

英英释义

例句

1.The pilot relied on the compensated compass to navigate through the stormy weather.

飞行员依靠补偿罗盘在暴风雨中导航。

2.Each ship must have a compensated compass installed to ensure safe travel.

每艘船都必须安装补偿罗盘以确保安全旅行。

3.The technician calibrated the compensated compass before the expedition to ensure accuracy.

技术人员在探险前对补偿罗盘进行了校准，以确保准确性。

4.During the sailing course, we learned how to use a compensated compass for accurate navigation.

在航海课程中，我们学习了如何使用补偿罗盘进行精确导航。

5.The compensated compass helps reduce errors caused by magnetic interference in the boat.

在船上，补偿罗盘有助于减少由磁干扰引起的误差。

作文

In the world of navigation, the term compensated compass refers to a type of magnetic compass that has been adjusted to account for magnetic deviations caused by nearby metallic objects or electrical equipment. This adjustment is crucial for ensuring accurate readings, especially in environments where precision is paramount, such as in aviation and marine navigation. A compensated compass allows navigators to trust their instruments, leading to safer and more efficient travel. The importance of a compensated compass cannot be overstated. In maritime navigation, for instance, ships rely heavily on accurate compass readings to chart their courses across vast oceans. Without the necessary compensation for magnetic interference, a ship could easily veer off course, potentially leading to disastrous consequences. Similarly, in aviation, pilots depend on various navigational aids, including a compensated compass, to ensure they reach their destinations safely and efficiently. The process of compensating a compass involves adjusting the compass's internal mechanisms to counteract the effects of local magnetic fields. This is typically done during the installation of the compass on a vessel or aircraft. Technicians will use specialized tools and techniques to identify any deviations in the compass reading and make the necessary adjustments. This meticulous process ensures that the compass provides accurate directional information, which is vital for navigation. Moreover, advancements in technology have further enhanced the functionality of compensated compasses. Modern electronic compasses often come equipped with additional sensors that can detect and compensate for variations in magnetic fields automatically. These innovations not only improve accuracy but also reduce the workload on navigators, allowing them to focus on other critical aspects of their journey. In addition to their practical applications, compensated compasses also serve as a reminder of the complexities involved in navigation. Navigators must understand the principles of magnetism and the potential sources of interference to effectively use these instruments. The interplay between technology and traditional navigation methods highlights the ongoing evolution of the field, as new tools and techniques emerge to enhance our ability to traverse the globe. In conclusion, the compensated compass is an essential tool in the realm of navigation, providing accurate directional information while accounting for local magnetic interferences. Its significance is evident in both maritime and aviation contexts, where precision is critical. As technology continues to advance, the role of the compensated compass will likely evolve, yet its fundamental purpose will remain the same: to guide travelers safely to their destinations. Understanding the intricacies of this instrument not only enhances our appreciation for navigation but also underscores the importance of accuracy in our increasingly interconnected world.

在导航的世界中，术语补偿指南针指的是一种磁性指南针，该指南针经过调整，以考虑到附近金属物体或电气设备造成的磁偏差。这种调整对于确保准确读数至关重要，特别是在航空和海洋导航等对精度要求很高的环境中。补偿指南针使导航员能够信任他们的仪器，从而实现更安全、更高效的旅行。补偿指南针的重要性不容小觑。例如，在海洋导航中，船只严重依赖准确的指南针读数来绘制横跨广阔海洋的航线。如果没有必要的磁干扰补偿，船只可能会轻易偏离航线，最终导致灾难性的后果。同样，在航空领域，飞行员依靠各种导航工具，包括补偿指南针，以确保他们安全高效地到达目的地。补偿指南针的过程涉及调整其内部机制，以抵消局部磁场的影响。通常在将指南针安装在船只或飞机上时进行此操作。技术人员将使用专门的工具和技术来识别指南针读数中的任何偏差，并进行必要的调整。这一细致的过程确保指南针提供准确的方向信息，这对于导航至关重要。此外，技术的进步进一步增强了补偿指南针的功能。现代电子指南针通常配备额外的传感器，可以自动检测和补偿磁场的变化。这些创新不仅提高了准确性，还减少了导航员的工作负担，使他们能够专注于旅程的其他关键方面。除了其实用应用之外，补偿指南针还提醒我们导航中涉及的复杂性。导航员必须理解磁学原理以及潜在的干扰源，以有效使用这些仪器。技术与传统导航方法之间的相互作用突显了该领域的持续演变，因为新的工具和技术不断涌现，以增强我们穿越全球的能力。总之，补偿指南针是导航领域的重要工具，在考虑局部磁干扰的同时提供准确的方向信息。它的意义在海洋和航空环境中显而易见，在这些环境中，精确性至关重要。随着技术的不断进步，补偿指南针的角色可能会发展，但其基本目的将保持不变：安全引导旅行者到达目的地。了解这一仪器的复杂性不仅增强了我们对导航的欣赏，还强调了在我们日益互联的世界中准确性的重要性。