great trigonometrical survey station

简明释义

大三角测量站

英英释义

例句

1.The great trigonometrical survey station was established in the 19th century and has been crucial for geodetic studies.

该大三角测量站成立于19世纪，并对大地测量研究至关重要。

2.The history of the great trigonometrical survey station reveals its importance in mapping the region.

关于大三角测量站的历史揭示了它在区域制图中的重要性。

3.The researchers decided to set up their equipment at the great trigonometrical survey station to ensure accurate measurements.

研究人员决定在大三角测量站设立设备以确保测量的准确性。

4.Engineers often refer to data from the great trigonometrical survey station when planning new infrastructure.

工程师在规划新基础设施时经常参考来自大三角测量站的数据。

5.During our hike, we stumbled upon an old map that marked the location of a great trigonometrical survey station in the mountains.

在我们的徒步旅行中，我们偶然发现了一张旧地图，上面标记了山中一个大三角测量站的位置。

作文

The concept of a great trigonometrical survey station is essential in the field of surveying and geographical measurements. These stations serve as critical reference points for various surveying activities, allowing for precise calculations and mapping of the Earth's surface. A great trigonometrical survey station typically consists of a series of markers or monuments that have been established over time, often using advanced technology to ensure their accuracy. In the history of surveying, the establishment of such stations has played a significant role in the development of cartography and navigation. For instance, during the 19th century, numerous countries embarked on extensive surveying projects to create accurate maps of their territories. The British Ordnance Survey, for example, utilized a network of great trigonometrical survey stations to produce detailed maps of the United Kingdom. This initiative not only enhanced navigation but also contributed to scientific research and urban planning.The importance of a great trigonometrical survey station can be seen in its application in modern technology. Today, Global Positioning System (GPS) relies heavily on the principles established by these survey stations. By using a network of satellites and ground-based stations, GPS technology provides users with real-time positioning information, which is crucial for various applications, including transportation, agriculture, and disaster management.Moreover, the data collected from great trigonometrical survey stations is invaluable for understanding geographical changes over time. Environmental scientists utilize this data to monitor phenomena such as land subsidence, erosion, and climate change. By analyzing the shifts in the positions of these survey stations, researchers can gain insights into the dynamic nature of our planet and make informed decisions regarding resource management and conservation efforts.In addition to their scientific and practical applications, great trigonometrical survey stations also hold cultural and historical significance. Many of these stations have become landmarks in their own right, attracting visitors who are interested in the history of surveying and the advancement of science. For example, the Great Trigonometrical Survey of India, initiated in the early 19th century, not only aimed to measure the size of the Indian subcontinent but also showcased the ingenuity of the surveyors involved in the project. This monumental endeavor laid the groundwork for future geodetic surveys in the region and highlighted the importance of precision in measurement.In conclusion, a great trigonometrical survey station is much more than just a point on a map; it represents a cornerstone of geographic science and engineering. Its contributions to navigation, environmental monitoring, and historical documentation cannot be overstated. As technology continues to evolve, the principles established by these survey stations will undoubtedly remain relevant, guiding future generations in their quest for knowledge about our world. Understanding the role and significance of a great trigonometrical survey station is crucial for anyone interested in the fields of geography, surveying, and environmental science.

“伟大的三角测量基站”这一概念在测量和地理测量领域中至关重要。这些基站作为各种测量活动的关键参考点，允许对地球表面进行精确的计算和绘图。“伟大的三角测量基站”通常由一系列标记或纪念碑组成，这些标记或纪念碑随着时间的推移而建立，通常使用先进技术以确保其准确性。在测量历史上，这些基站的建立在制图和导航的发展中发挥了重要作用。例如，在19世纪，许多国家开展了广泛的测量项目，以创建其领土的准确地图。例如，英国测量局利用一系列“伟大的三角测量基站”来制作英国的详细地图。这项举措不仅增强了导航功能，还促进了科学研究和城市规划。“伟大的三角测量基站”的重要性可以通过其在现代技术中的应用来体现。如今，全球定位系统（GPS）在很大程度上依赖于这些测量站建立的原理。通过使用卫星和地面基站的网络，GPS技术为用户提供实时定位信息，这对于交通、农业和灾害管理等各种应用至关重要。此外，从“伟大的三角测量基站”收集的数据对于理解地理变化也具有不可估量的价值。环境科学家利用这些数据来监测土地沉降、侵蚀和气候变化等现象。通过分析这些测量站位置的变化，研究人员可以深入了解我们星球的动态特性，并就资源管理和保护工作做出明智决策。除了科学和实践应用外，“伟大的三角测量基站”还具有文化和历史意义。许多这样的测量站本身已成为地标，吸引了对测量历史和科学进步感兴趣的游客。例如，印度伟大的三角测量，始于19世纪初，不仅旨在测量印度次大陆的大小，而且展示了参与该项目的测量师的聪明才智。这一宏伟的努力为该地区未来的测量奠定了基础，并突显了测量精度的重要性。总之，“伟大的三角测量基站”不仅仅是地图上的一个点；它代表了地理科学和工程的基石。它对导航、环境监测和历史文献的贡献不容小觑。随着技术的不断发展，这些测量站所建立的原则无疑将继续保持相关性，引导未来几代人对我们世界的知识探索。理解“伟大的三角测量基站”的角色和重要性对于任何对地理、测量和环境科学领域感兴趣的人来说都是至关重要的。