azimuthal measurement

简明释义

方位测量;

英英释义

例句

1.In the field of astronomy, azimuthal measurement is crucial for tracking celestial bodies.

在天文学领域，方位测量对追踪天体至关重要。

2.Marine navigation relies heavily on azimuthal measurement for determining the course of ships.

海洋导航在很大程度上依赖于方位测量来确定船只的航向。

3.The engineer conducted an azimuthal measurement to determine the direction of the signal from the satellite.

工程师进行了方位测量以确定卫星信号的方向。

4.The azimuthal measurement taken during the experiment helped in accurately positioning the equipment.

实验中进行的方位测量有助于准确定位设备。

5.Surveyors often use azimuthal measurement to establish property boundaries.

测量员经常使用方位测量来确立财产边界。

作文

In the field of geodesy and navigation, understanding the concept of azimuthal measurement is crucial for accurate positioning and orientation. The term 'azimuth' refers to the angle between a reference direction (usually true north) and a line to a point of interest, measured in the horizontal plane. This angular measurement is essential for various applications, including cartography, astronomy, and even modern GPS technology. By mastering azimuthal measurement, one can effectively determine the direction of an object relative to a specific location, which is vital for both scientific research and practical navigation.The process of taking azimuthal measurements typically involves using a compass or a theodolite. A compass allows individuals to find their bearing by aligning the device with the Earth's magnetic field, while a theodolite provides a more precise measurement of angles in both the horizontal and vertical planes. When conducting azimuthal measurements, it is important to consider factors such as magnetic declination, which is the angle difference between magnetic north and true north. This consideration ensures that the measurements are accurate and reliable.In astronomy, azimuthal measurement plays a significant role in locating celestial objects. Astronomers often use this method to determine the position of stars, planets, and other celestial bodies in the night sky. By measuring the azimuth angle of these objects, astronomers can create star charts and navigate the cosmos with greater precision. This application of azimuthal measurement not only enhances our understanding of the universe but also aids in the development of technologies such as satellite communication and space exploration.Moreover, azimuthal measurement is integral to the field of robotics and autonomous vehicles. For instance, self-driving cars rely on precise directional data to navigate roads and avoid obstacles. By utilizing sensors and GPS systems that incorporate azimuthal measurements, these vehicles can determine their orientation and make informed decisions about their movements. This technology exemplifies how azimuthal measurement has transcended traditional applications and is now a fundamental aspect of modern innovation.In conclusion, the significance of azimuthal measurement cannot be overstated. Whether in navigation, astronomy, or robotics, this fundamental concept provides the necessary framework for understanding spatial relationships and directions. As technology continues to evolve, the importance of mastering azimuthal measurement will remain critical, ensuring that we can navigate our world and beyond with accuracy and confidence. By integrating this knowledge into various fields, we can enhance our capabilities and push the boundaries of exploration and innovation.

在大地测量和导航领域，理解方位测量的概念对于准确定位和定向至关重要。术语“方位”是指参考方向（通常是真北）与指向感兴趣点的线之间的角度，在水平面内测量。这个角度测量对于各种应用至关重要，包括制图、天文学，甚至现代GPS技术。通过掌握方位测量，人们可以有效地确定相对于特定位置的物体方向，这对科学研究和实际导航都是必不可少的。进行方位测量的过程通常涉及使用指南针或经纬仪。指南针允许个人通过将设备与地球的磁场对齐来找到其方位，而经纬仪则提供更精确的水平和垂直平面角度测量。在进行方位测量时，考虑诸如磁偏角等因素非常重要，因为这是磁北与真北之间的角度差。这种考虑确保了测量的准确性和可靠性。在天文学中，方位测量在定位天体方面发挥着重要作用。天文学家通常使用这种方法来确定夜空中星星、行星和其他天体的位置。通过测量这些物体的方位角，天文学家可以创建星图并更精确地导航宇宙。方位测量的这一应用不仅增强了我们对宇宙的理解，还帮助开发了卫星通信和太空探索等技术。此外，方位测量在机器人和自主车辆领域也是不可或缺的。例如，无人驾驶汽车依赖精确的方向数据来导航道路并避免障碍物。通过利用传感器和包含方位测量的GPS系统，这些车辆可以确定其方向并就其移动做出明智的决策。这项技术体现了方位测量如何超越传统应用，成为现代创新的基本方面。总之，方位测量的重要性不容小觑。无论是在导航、天文学还是机器人技术中，这一基本概念为理解空间关系和方向提供了必要的框架。随着技术的不断发展，掌握方位测量的重要性仍将至关重要，确保我们能够以准确和自信的方式导航我们的世界及其之外。通过将这一知识整合到各个领域，我们可以增强我们的能力，推动探索和创新的边界。