tabulated azimuth

简明释义

表列方位角

英英释义

例句

1.The pilot relied on the tabulated azimuth data to ensure accurate flight paths.

飞行员依靠表格化方位角数据来确保飞行路径的准确性。

2.For the astronomy project, we needed to calculate the tabulated azimuth of stars at different times of the year.

在天文学项目中，我们需要计算不同时间星星的表格化方位角。

3.During the survey, the geologist recorded the tabulated azimuth of various rock formations.

在勘测过程中，地质学家记录了各种岩层的表格化方位角。

4.The researchers published their findings, which included a tabulated azimuth of the satellite's trajectory.

研究人员发布了他们的发现，其中包括卫星轨迹的表格化方位角。

5.The navigation software provides a detailed report that includes the tabulated azimuth for each waypoint.

导航软件提供了一份详细报告，其中包括每个航点的表格化方位角。

作文

In the field of navigation and astronomy, precision is crucial. One of the key concepts that professionals rely on is the measurement of angles, specifically the azimuth. The term ‘azimuth’ refers to the angle between a reference direction (usually true north) and the line connecting the observer to a point of interest, measured in degrees. To facilitate the use of azimuth in various applications, data is often organized systematically. This is where the concept of tabulated azimuth comes into play. 表格化方位角 is a method of presenting azimuth values in a structured format, allowing for easier interpretation and application in real-world scenarios.The process of creating a tabulated azimuth 表格化方位角 involves collecting azimuth measurements from different locations or under varying conditions. These measurements are then compiled into a table, where each row represents a specific observation, and the corresponding azimuth value is listed alongside other relevant data such as date, time, and geographical coordinates. By organizing data in this way, navigators and astronomers can quickly reference the information they need without sifting through extensive raw data.For example, consider a scenario where a team of astronomers is tracking the movement of celestial bodies. They may take multiple observations over several nights to determine the azimuth of a star at different times. By compiling these observations into a tabulated azimuth 表格化方位角, they can easily analyze trends, identify patterns, and make predictions about the star's future positions. This systematic approach not only enhances accuracy but also saves time, allowing researchers to focus on their analyses rather than data organization.In navigation, particularly in maritime and aerial contexts, the use of tabulated azimuth 表格化方位角 is equally vital. Pilots and sailors often rely on charts that include azimuth information to chart their courses effectively. A well-structured azimuth table can provide essential information about potential hazards, landmarks, and navigational aids, ensuring safe and efficient travel. By consulting a tabulated azimuth 表格化方位角, navigators can make informed decisions based on the most accurate and up-to-date information available.Moreover, the integration of technology has enhanced the effectiveness of tabulated azimuth 表格化方位角 data. With the advent of GPS and advanced software tools, it is now possible to automate the process of collecting and tabulating azimuth data. This automation not only increases the efficiency of data collection but also reduces the likelihood of human error. As a result, modern navigators and astronomers can rely on highly accurate azimuth tables that are regularly updated, which is critical for their work.In conclusion, the concept of tabulated azimuth 表格化方位角 plays a significant role in navigation and astronomy by providing a systematic approach to organizing angular measurements. Whether used for tracking celestial bodies or navigating through challenging environments, having access to well-structured azimuth data is essential for making informed decisions. As technology continues to advance, the methods for collecting and presenting this data will only improve, further enhancing our ability to explore and understand the world around us.

在导航和天文学领域，精确性至关重要。专业人士依赖的关键概念之一是角度的测量，特别是方位角。术语“方位角”指的是参考方向（通常是真北）与连接观察者和感兴趣点的线之间的角度，以度数为单位进行测量。为了方便在各种应用中使用方位角，数据通常会系统地组织。这就是表格化方位角的概念发挥作用的地方。表格化方位角是一种以结构化格式呈现方位角值的方法，使其在现实场景中更易于解释和应用。创建表格化方位角的过程涉及从不同地点或在不同条件下收集方位角测量数据。这些测量数据随后被编制成一个表格，其中每一行代表一个特定的观察结果，相应的方位角值与其他相关数据（例如日期、时间和地理坐标）一起列出。通过这种方式组织数据，导航员和天文学家可以快速参考所需的信息，而无需翻阅大量原始数据。例如，考虑一个天文学家团队跟踪天体运动的场景。他们可能会在几晚内进行多次观察，以确定某颗星星在不同时间的方位角。通过将这些观察结果编制成一个表格化方位角，他们可以轻松分析趋势、识别模式，并对星星未来的位置做出预测。这种系统化的方法不仅提高了准确性，还节省了时间，使研究人员能够专注于分析而不是数据组织。在导航，特别是在海洋和航空环境中，表格化方位角的使用同样至关重要。飞行员和水手通常依靠包含方位角信息的图表来有效规划航线。一个结构良好的方位角表可以提供有关潜在危险、地标和导航辅助设施的重要信息，确保安全和高效的旅行。通过查阅表格化方位角，导航员可以根据最新的准确信息做出明智的决策。此外，技术的整合增强了表格化方位角数据的有效性。随着GPS和先进软件工具的出现，现在可以自动化收集和表格化方位角数据的过程。这种自动化不仅提高了数据收集的效率，还减少了人为错误的可能性。因此，现代导航员和天文学家可以依赖高度准确的方位角表，这些表定期更新，这对他们的工作至关重要。总之，表格化方位角在导航和天文学中的概念通过提供系统化的角度测量组织方法发挥着重要作用。无论是用于跟踪天体还是在复杂环境中导航，获取结构良好的方位角数据对于做出明智的决策至关重要。随着技术的不断进步，收集和呈现这些数据的方法只会得到改善，从而进一步增强我们探索和理解周围世界的能力。