relative bearing

简明释义

舷角

英英释义

例句

1.The pilot reported the relative bearing 相对方位角 of the storm to the air traffic control.

飞行员向空中交通管制报告了风暴的relative bearing 相对方位角。

2.By calculating the relative bearing 相对方位角, we can better navigate through the fog.

通过计算relative bearing 相对方位角，我们可以更好地穿越雾霭。

3.Using a compass, you can easily determine the relative bearing 相对方位角 to your destination.

使用指南针，你可以轻松确定到目的地的relative bearing 相对方位角。

4.In navigation, understanding relative bearing 相对方位角 is crucial for avoiding obstacles.

在航海中，理解relative bearing 相对方位角 对于避免障碍物至关重要。

5.The captain instructed the crew to adjust the course based on the relative bearing 相对方位角 of the approaching vessel.

船长指示船员根据接近船只的relative bearing 相对方位角 调整航向。

作文

In the world of navigation and maritime operations, understanding the concept of relative bearing is crucial for safe and effective travel. Relative bearing refers to the direction of an object or destination in relation to the current heading of a vessel or vehicle. Unlike absolute bearing, which is measured from true north, relative bearing is measured in degrees from the front of the vessel, allowing navigators to make quick and informed decisions. This concept plays a significant role in various fields, including aviation, sailing, and even military operations.When a ship is navigating through waters, it often encounters other vessels, land formations, or navigational aids. To determine the course of action, the crew must assess the relative bearing of these objects. For instance, if a ship is heading north and detects another vessel to its east, the relative bearing of that vessel would be 90 degrees. This information is vital for avoiding collisions and ensuring safe passage.Moreover, relative bearing is not just limited to maritime contexts. In aviation, pilots use this concept to maintain situational awareness. When flying, a pilot might receive instructions to turn to a certain relative bearing to intercept a flight path or avoid other aircraft. Understanding relative bearing allows pilots to navigate more efficiently and safely, especially in crowded airspaces.The importance of relative bearing extends beyond navigation; it also plays a key role in training and education. For example, maritime academies teach cadets how to interpret relative bearing in conjunction with radar and electronic navigation systems. This knowledge equips future mariners with the skills needed to operate vessels effectively and respond to dynamic environments. Similarly, aviation schools emphasize the significance of relative bearing in their curricula, preparing pilots to handle real-world scenarios.In addition to practical applications, relative bearing has implications in technology and innovation. With advancements in navigation systems, such as GPS and automated piloting, understanding traditional concepts like relative bearing remains essential. These systems often incorporate relative bearing calculations to provide users with accurate and timely information. As technology evolves, the fundamental principles of navigation, including relative bearing, continue to be relevant.In conclusion, the concept of relative bearing is integral to navigation across various domains. Its application in maritime and aviation contexts underscores its importance in ensuring safety and efficiency. By mastering the principles of relative bearing, navigators can enhance their decision-making capabilities and contribute to safer travel. As we move forward in an increasingly complex world, the understanding of relative bearing will remain a cornerstone of effective navigation, bridging the gap between traditional methods and modern technology.

在航海和海事操作的世界中，理解“相对方位”的概念对于安全和有效的旅行至关重要。“相对方位”指的是相对于船只或车辆当前航向的物体或目的地的方向。与从真北测量的绝对方位不同，“相对方位”是从船只的前方以度数进行测量的，这使得导航员能够快速做出明智的决策。这个概念在包括航空、航海甚至军事行动等多个领域发挥着重要作用。当一艘船在水域中航行时，通常会遇到其他船只、陆地形态或导航辅助设施。为了确定行动方案，船员必须评估这些物体的相对方位。例如，如果一艘船朝北航行并发现另一艘船在其东侧，那么该船的相对方位将是90度。这些信息对于避免碰撞和确保安全通行至关重要。此外，“相对方位”不仅限于海事环境。在航空领域，飞行员使用这一概念来保持情境意识。在飞行中，飞行员可能会收到指示，要求他们转向某个相对方位以拦截航线或避开其他飞机。理解相对方位使飞行员能够更高效、安全地导航，特别是在拥挤的空域中。“相对方位”的重要性不仅体现在实际应用中，还在培训和教育中发挥着关键作用。例如，海事学院教导学员如何结合雷达和电子导航系统解读相对方位。这项知识使未来的海员具备有效操作船只和应对动态环境所需的技能。同样，航空学校在课程中强调相对方位的重要性，准备飞行员应对现实场景。除了实践应用外，相对方位在技术和创新中也有意义。随着导航系统（如GPS和自动驾驶）的进步，理解传统概念如相对方位仍然至关重要。这些系统通常会结合相对方位计算，为用户提供准确及时的信息。随着技术的发展，导航的基本原则，包括相对方位，继续保持相关性。总之，相对方位的概念对于各个领域的导航至关重要。它在海事和航空背景中的应用凸显了其在确保安全和效率方面的重要性。通过掌握相对方位的原则，导航员可以增强决策能力，为更安全的旅行做出贡献。随着我们在一个日益复杂的世界中前进，对相对方位的理解将继续成为有效导航的基石，架起传统方法与现代技术之间的桥梁。