azimuth

简明释义

英[ˈæzɪməθ]美[ˈæzɪməθ]

n. [测] 方位；[天] 方位角；偏振角

英英释义

单词用法

同义词

反义词

例句

1.In microwave communication, the conventional theodolite method for antenna azimuth calibration is of large error and poor efficiency.

在微波通信中，天线方位角的校准通常采用经纬仪法，存在误差大、效率低的缺点。

2.This article is to introduce the development process of a measuring system for obliquity and azimuth angles.

本文介绍一种倾角和方位角度测量系统的研制过程。

3.In this system the azimuth rate platform without azimuth stabilized loop, coordinate-resolver and azimuth syn chronzer is adopted.

在该系统中使用的速率方位平台没有方位稳定回路、方位坐标分解器及同步器。

4.A new method that is applicable to local seismic networks to estimate the azimuth and slowness of teleseismic signals is introduced in the paper.

介绍一种新的适合于地方遥测台网数据处理的方法，估算远震信号到达台站的方位角和慢度。

5.This azimuth motion is known as the ballistic deflection error.

这种绕方位轴的运动称为冲击偏差。

6.It is designed to enhance pilot situational awareness by providing accurate identification, lethality, and azimuth displays of hostile and friendly emitters.

它设计用来提高飞行人员的态势感知，通过提供精确的识别、致命性和敌友发射器的方位显示。

7.The forecasting of azimuth sequence is very important for submarine.

对方位序列进行预测对于潜艇作战具有重要的实际意义。

8.The length and azimuth of one side at each junction point is first decided on.

每个交叉点上的一条边的长度和方位角是一开始就决定的。

9.Magnetic azimuth bearings are approximate.

磁性方位角轴承是近似。

10.The compass showed an azimuth 方位角 of 45 degrees, indicating northeast.

指南针显示的azimuth 方位角为45度，指向东北。

11.To accurately aim the telescope, you need to set the azimuth 方位角 to 180 degrees.

为了准确瞄准望远镜，你需要将azimuth 方位角设置为180度。

12.The pilot adjusted the aircraft's heading to match the azimuth 方位角 for the flight path.

飞行员调整了飞机的航向以匹配飞行路径的azimuth 方位角。

13.In navigation, knowing the azimuth 方位角 helps in determining your exact location.

在导航中，了解azimuth 方位角有助于确定你的确切位置。

14.The azimuth 方位角 for the sun at noon is typically around 180 degrees.

中午时太阳的azimuth 方位角通常在180度左右。

作文

The concept of azimuth is fundamental in various fields such as navigation, astronomy, and geography. It refers to the angle between a reference direction (usually true north) and the line connecting an observer to a point of interest, measured clockwise from the north. Understanding azimuth is crucial for anyone involved in activities that require precise location tracking or celestial navigation. In navigation, for instance, sailors and pilots rely heavily on azimuth to determine their heading and position relative to landmarks or celestial bodies. By calculating the azimuth of a star or a distant island, a navigator can adjust their course accordingly. This method has been used for centuries, dating back to ancient mariners who relied on the stars to guide their journeys across vast oceans. Astronomers also utilize azimuth when locating celestial objects in the night sky. The sky is divided into a coordinate system that includes azimuth and altitude. The azimuth indicates the direction one must look to find a particular star or planet, while the altitude provides the height of the object above the horizon. For example, if an astronomer wants to observe Mars, they may refer to its azimuth and altitude coordinates to locate it accurately in the sky. In addition to navigation and astronomy, azimuth plays a significant role in surveying and mapping. Surveyors use azimuth to establish property boundaries and create accurate maps. By measuring the azimuth of different points, they can ensure that their calculations are precise, which is critical for legal and construction purposes. In this context, azimuth helps in determining angles and distances between various points, contributing to the overall integrity of the survey. Moreover, modern technology has made the application of azimuth even more accessible. With the advent of GPS and digital mapping tools, individuals can easily find their azimuth relative to their current location. These technologies have revolutionized how we navigate and interact with our environment, making it simpler for everyone, from hikers to urban planners, to use azimuth in their daily activities. In conclusion, the term azimuth encompasses a wide range of applications across different fields. Its significance in navigation, astronomy, and surveying highlights the importance of understanding angles and directions in our world. As we continue to advance technologically, the relevance of azimuth will only grow, further enhancing our ability to explore and understand the environment around us. Whether you are a sailor plotting a course, an astronomer gazing at the stars, or a surveyor mapping land, mastering the concept of azimuth is essential for success in these endeavors.

“方位角”这一概念在导航、天文学和地理等多个领域中至关重要。它指的是参考方向（通常是正北）与观察者与感兴趣点之间的连线之间的角度，按顺时针方向从北方测量。理解方位角对于任何参与需要精确位置跟踪或天体导航活动的人来说都是至关重要的。 例如，在导航中，水手和飞行员非常依赖方位角来确定他们相对于地标或天体的航向和位置。通过计算某颗星星或远处岛屿的方位角，导航员可以相应地调整他们的航向。这种方法已经使用了几个世纪，可以追溯到古代海员，他们依靠星星来引导他们穿越广阔的海洋。 天文学家在寻找夜空中的天体时也利用方位角。天空被划分为一个坐标系统，其中包括方位角和高度。方位角指示一个人必须朝哪个方向看才能找到特定的星星或行星，而高度则提供该物体在地平面上的高度。例如，如果天文学家想观察火星，他们可能会参考其方位角和高度坐标，以准确定位它在天空中的位置。 除了导航和天文学之外，方位角在测量和制图中也发挥着重要作用。测量师使用方位角来建立财产边界并创建准确的地图。通过测量不同点的方位角，他们可以确保其计算的精确性，这对法律和建设目的至关重要。在这种情况下，方位角有助于确定各点之间的角度和距离，有助于整体测量的完整性。 此外，现代技术使得方位角的应用变得更加容易。随着GPS和数字制图工具的出现，个人可以轻松找到相对于当前位置的方位角。这些技术彻底改变了我们导航和与环境互动的方式，使得从远足者到城市规划者的每个人都能在日常活动中轻松使用方位角。 总之，术语方位角涵盖了各个领域的广泛应用。它在导航、天文学和测量中的重要性突显了理解我们世界中角度和方向的重要性。随着我们技术的不断进步，方位角的相关性只会增加，进一步增强我们探索和理解周围环境的能力。无论你是正在绘制航线的水手、仰望星空的天文学家，还是绘制土地的测量师，掌握方位角的概念对于在这些工作中的成功至关重要。