azimuth bearing

简明释义

方位角

英英释义

例句

1.To locate the satellite, the engineer calculated the azimuth bearing from the observation point.

为了定位卫星，工程师从观察点计算了方位角。

2.The pilot communicated the azimuth bearing to air traffic control during takeoff.

在起飞过程中，飞行员向空中交通管制部门传达了方位角。

3.In the military, soldiers often use azimuth bearings for accurate target acquisition.

在军队中，士兵们常常使用方位角进行精确的目标获取。

4.The navigator adjusted the azimuth bearing to ensure they were heading in the right direction.

导航员调整了方位角以确保他们朝着正确的方向前进。

5.Using a compass, she found the azimuth bearing of the mountain peak to plan her hike.

她使用指南针找到了那座山峰的方位角来规划她的徒步旅行。

作文

In the field of navigation and surveying, understanding direction is crucial. One of the key concepts that professionals often use is the term azimuth bearing. An azimuth bearing is defined as the angle between a reference direction, usually true north, and the line to a specific point, measured in degrees. This measurement is essential for accurately determining locations and navigating through various terrains. The concept of azimuth bearing has been utilized since ancient times, but it has evolved with advancements in technology and navigation tools.When we think about how sailors and pilots navigate, it becomes clear that azimuth bearing plays a significant role. For instance, when a ship is at sea, the captain needs to know the exact direction in which to steer the vessel. By using a compass, the captain can determine the azimuth bearing to reach their destination safely. Similarly, pilots use azimuth bearing when flying to ensure they are on the correct flight path. Without this precise measurement, navigating through open waters or skies would be incredibly challenging and potentially dangerous.In addition to maritime and aviation applications, azimuth bearing is also vital in land surveying. Surveyors use this measurement to create accurate maps and establish property boundaries. By measuring the azimuth bearing from one point to another, they can calculate distances and angles, which are essential for construction projects and land development. This process is not only important for legal purposes but also for ensuring that buildings and structures are constructed in the right locations.Furthermore, the use of azimuth bearing extends into the realm of astronomy. Astronomers often utilize this concept to locate celestial bodies in the night sky. By determining the azimuth bearing of stars and planets, they can track their movements and predict celestial events. This application showcases the versatility of azimuth bearing beyond just navigation and surveying, highlighting its importance in various scientific fields.As technology continues to advance, the methods for calculating azimuth bearing have also improved. Modern tools such as GPS devices and digital compasses provide instant and accurate readings, making navigation easier than ever before. However, it is essential for users to understand the fundamental principles behind azimuth bearing to interpret these readings correctly. Knowledge of how to read and apply azimuth bearing is invaluable, especially in situations where technology may fail or be unavailable.In conclusion, the term azimuth bearing encompasses a vital aspect of navigation, surveying, and astronomy. Its significance in determining direction and location cannot be overstated. Whether at sea, in the air, or on land, understanding azimuth bearing is essential for safe and effective navigation. As we continue to rely on technology, it is crucial to maintain a solid grasp of traditional navigation principles, including azimuth bearing, to ensure we can always find our way, no matter the circumstances.

在导航和测量领域，理解方向至关重要。专业人士常用的一个关键概念是术语方位角。方位角被定义为参考方向（通常是正北）与指向特定点的直线之间的角度，以度数计量。这一测量对准确确定位置和在各种地形中导航至关重要。方位角的概念自古以来就被使用，但随着技术和导航工具的进步，它已不断发展。当我们想到水手和飞行员如何导航时，很明显方位角发挥了重要作用。例如，当一艘船在海上航行时，船长需要知道确切的航向。通过使用指南针，船长可以确定到达目的地所需的方位角。同样，飞行员在飞行时也使用方位角来确保他们处于正确的航线上。如果没有这种精确的测量，在开放的水域或空中导航将极具挑战性且可能危险。除了海洋和航空应用外，方位角在土地测量中也至关重要。测量师使用这一测量创建准确的地图并建立财产边界。通过测量从一个点到另一个点的方位角，他们可以计算距离和角度，这对于建设项目和土地开发至关重要。这个过程不仅对法律目的重要，而且对确保建筑和结构在正确的位置上建造也至关重要。此外，方位角的使用还延伸到天文学领域。天文学家经常利用这一概念来定位夜空中的天体。通过确定星星和行星的方位角，他们可以追踪它们的运动并预测天文事件。这一应用展示了方位角在导航和测量之外的多功能性，突显了其在各个科学领域的重要性。随着技术的不断进步，计算方位角的方法也得到了改善。现代工具如GPS设备和数字指南针提供即时和准确的读数，使导航变得比以往任何时候都更加容易。然而，用户了解方位角背后的基本原理，以正确解读这些读数是至关重要的。在技术可能失败或不可用的情况下，掌握如何读取和应用方位角的知识是无价的。总之，术语方位角涵盖了导航、测量和天文学的一个重要方面。它在确定方向和位置方面的重要性不容小觑。无论是在海上、空中还是陆地上，理解方位角对安全和有效的导航至关重要。随着我们继续依赖技术，保持对传统导航原则（包括方位角）的扎实理解至关重要，以确保我们始终能够找到自己的方向，无论情况如何。