line of azimuth
简明释义
方位线
英英释义
例句
1.The GPS device displays the line of azimuth 方位线 for the user's current location.
GPS设备显示用户当前位置的
2.During the military operation, the commander used the line of azimuth 方位线 to direct the troops.
在军事行动中,指挥官使用
3.The astronomer calculated the line of azimuth 方位线 to locate the stars in the night sky.
天文学家计算了
4.In navigation, understanding the line of azimuth 方位线 is crucial for charting a course.
在导航中,理解
5.The surveyor determined the line of azimuth 方位线 to accurately measure the property boundaries.
测量员确定了
作文
Understanding the concept of a line of azimuth is crucial in various fields, especially in navigation and surveying. The term refers to a specific direction or angle measured from a reference point, usually north, to a target point. This angle is typically expressed in degrees and can be utilized to determine the position of an object relative to another. In navigation, for instance, sailors and pilots use the line of azimuth to chart their courses accurately. By knowing the azimuth angle, they can navigate through vast oceans or skies with precision. In surveying, the line of azimuth plays an essential role in land measurement and mapping. Surveyors rely on this concept to create accurate maps and property boundaries. When establishing a line of azimuth, surveyors measure angles using instruments like theodolites, which help them determine the exact position of points on the earth's surface. This information is vital for construction projects, land development, and urban planning.The mathematical foundation behind the line of azimuth involves trigonometry. By applying trigonometric functions, surveyors and navigators can calculate distances and angles accurately. For example, if a navigator knows the distance to a landmark and the azimuth angle, they can use these values to pinpoint their location on a map. Similarly, surveyors can apply these calculations to ensure that buildings are erected in the correct locations and alignments.In astronomy, the line of azimuth is also significant. Astronomers use it to locate celestial bodies in the night sky. The azimuth angle helps them identify the direction to look when searching for stars, planets, or other astronomical objects. By understanding the line of azimuth, astronomers can make precise observations and gather valuable data about the universe.Moreover, technology has enhanced our ability to utilize the line of azimuth. With the advent of GPS and digital mapping tools, individuals can now easily determine their azimuth angles and navigate with remarkable accuracy. These technological advancements have made it easier for people to explore new places, whether hiking in the wilderness or driving in unfamiliar cities.In conclusion, the line of azimuth is a fundamental concept that transcends various disciplines, including navigation, surveying, and astronomy. Its applications are vast and critical for ensuring accuracy in measurements and directions. As we continue to advance technologically, our understanding and utilization of the line of azimuth will only become more refined, enabling us to explore and understand our world better. Whether you are a sailor charting a course, a surveyor mapping land, or an astronomer gazing at the stars, the line of azimuth remains an indispensable tool in your toolkit.
理解“方位线”这个概念在许多领域中至关重要,尤其是在导航和测量中。该术语指的是从参考点(通常是北方)到目标点的特定方向或角度。这个角度通常以度数表示,可以用于确定一个物体相对于另一个物体的位置。例如,在导航中,水手和飞行员使用方位线来准确绘制他们的航线。通过知道方位角,他们可以在广阔的海洋或天空中精确导航。在测量中,方位线在土地测量和制图中起着重要作用。测量师依赖这个概念来创建准确的地图和财产边界。当建立方位线时,测量师使用经纬仪等仪器测量角度,这帮助他们确定地球表面点的确切位置。这些信息对建筑项目、土地开发和城市规划至关重要。方位线背后的数学基础涉及三角学。通过应用三角函数,测量师和导航员可以准确计算距离和角度。例如,如果导航员知道到地标的距离和方位角,他们可以利用这些值在地图上定位自己的位置。同样,测量师可以应用这些计算来确保建筑物在正确的位置和方向上竖立。在天文学中,方位线也非常重要。天文学家利用它在夜空中定位天体。方位角帮助他们在寻找星星、行星或其他天文物体时确定观察的方向。通过理解方位线,天文学家可以进行精确的观测并收集关于宇宙的宝贵数据。此外,科技增强了我们利用方位线的能力。随着GPS和数字制图工具的出现,个人现在可以轻松确定他们的方位角,并以惊人的准确性进行导航。这些技术进步使人们更容易探索新地方,无论是在荒野中徒步旅行还是在陌生城市驾驶。总之,方位线是一个基本概念,跨越导航、测量和天文学等多个学科。它的应用范围广泛,对于确保测量和方向的准确性至关重要。随着我们技术的不断进步,我们对方位线的理解和利用将变得更加精细,使我们能够更好地探索和理解我们的世界。无论你是水手绘制航线,测量师绘制土地,还是天文学家仰望星空,方位线始终是你工具箱中不可或缺的工具。
相关单词
