magnetic survey

简明释义

磁力探测

英英释义

例句

1.After completing the magnetic survey, the team analyzed the data for further exploration.

完成磁测调查后，团队分析了数据以进行进一步探索。

2.The geologists conducted a magnetic survey to locate mineral deposits in the area.

地质学家进行了磁测调查以定位该地区的矿藏。

3.A detailed magnetic survey can help in understanding the geological history of the region.

详尽的磁测调查有助于理解该地区的地质历史。

4.During the magnetic survey, they discovered an anomaly that indicated the presence of iron ore.

在磁测调查期间，他们发现了一个异常，表明存在铁矿。

5.The results of the magnetic survey were crucial for planning the new mining operation.

这次磁测调查的结果对新矿业作业的规划至关重要。

作文

A magnetic survey is a geophysical method used to measure the Earth's magnetic field at various locations. This technique plays a crucial role in geological exploration, archaeology, and environmental studies. By analyzing variations in the magnetic field, scientists can infer the presence of different types of minerals, geological structures, and even archaeological artifacts buried beneath the surface. The process involves using specialized equipment, such as magnetometers, to collect data on the magnetic intensity and direction at specified points. Once the data is gathered, it is processed and interpreted to create maps that reveal the underlying geological features. 磁性测量是一种用于测量地球磁场在不同地点的地球物理方法。这项技术在地质勘探、考古学和环境研究中发挥着至关重要的作用。通过分析磁场的变化，科学家可以推断出不同类型矿物、地质结构，甚至是埋藏在地下的考古文物的存在。该过程涉及使用专门的设备，如磁力仪，在指定点收集有关磁强度和方向的数据。数据收集后，将进行处理和解释，以创建揭示潜在地质特征的地图。The importance of magnetic surveys cannot be overstated. In the field of mineral exploration, for instance, geologists utilize this method to locate deposits of iron, copper, and other valuable minerals. The magnetic properties of these minerals cause specific anomalies in the Earth's magnetic field, which can be detected through a magnetic survey. By identifying these anomalies, companies can target areas for further investigation, thereby optimizing their exploration efforts and reducing costs.In archaeology, magnetic surveys have revolutionized the way researchers uncover ancient sites. Traditional excavation methods can be time-consuming and destructive; however, with magnetic surveys, archaeologists can non-invasively detect features such as walls, ditches, and even burial sites. This allows for a more strategic approach to excavation, ensuring that significant artifacts are preserved while still gaining valuable insights into past civilizations. For example, in many historical sites, the use of magnetic surveys has led to the discovery of structures that were previously unknown, enhancing our understanding of history.Moreover, magnetic surveys are also employed in environmental studies to assess the impact of human activities on the Earth's magnetic field. Changes in the magnetic field can indicate alterations in the subsurface geology caused by mining, construction, or other industrial activities. By monitoring these changes, researchers can better understand the environmental consequences of such actions and develop strategies to mitigate negative impacts.In conclusion, the application of magnetic surveys is vast and varied, impacting multiple fields from geology to archaeology and environmental science. As technology advances, the accuracy and efficiency of magnetic surveys continue to improve, allowing for more detailed and comprehensive analyses of the Earth's subsurface. This not only aids in resource exploration and historical research but also fosters a greater awareness of our environment and the effects of human activity on it. The future of magnetic surveys holds great promise, paving the way for new discoveries and deeper insights into our planet's history and resources.

《磁性测量》是一种用于测量地球磁场在不同地点的地球物理方法。这项技术在地质勘探、考古学和环境研究中发挥着至关重要的作用。通过分析磁场的变化，科学家可以推断出不同类型矿物、地质结构，甚至是埋藏在地下的考古文物的存在。该过程涉及使用专门的设备，如磁力仪，在指定点收集有关磁强度和方向的数据。数据收集后，将进行处理和解释，以创建揭示潜在地质特征的地图。《磁性测量》的重要性不容小觑。例如，在矿物勘探领域，地质学家利用此方法定位铁、铜和其他有价值矿物的储藏。这些矿物的磁性特性导致地球磁场产生特定异常，可以通过《磁性测量》检测到。通过识别这些异常，公司可以针对进一步调查的区域，从而优化勘探工作并降低成本。在考古学中，《磁性测量》彻底改变了研究人员发现古代遗址的方式。传统的挖掘方法可能耗时且具有破坏性；然而，通过《磁性测量》，考古学家可以非侵入性地检测墙壁、沟渠甚至埋葬地点等特征。这使得挖掘变得更加具有战略性，确保重要文物得到保护，同时仍能获得对过去文明的宝贵见解。例如，在许多历史遗址中，使用《磁性测量》导致发现了先前未知的结构，增强了我们对历史的理解。此外，《磁性测量》还被应用于环境研究，以评估人类活动对地球磁场的影响。磁场的变化可以指示由于采矿、建筑或其他工业活动造成的地下地质变化。通过监测这些变化，研究人员可以更好地理解这些行为的环境后果，并制定缓解负面影响的策略。总之，《磁性测量》的应用范围广泛，影响多个领域，从地质学到考古学和环境科学。随着技术的进步，《磁性测量》的准确性和效率不断提高，使得对地球地下的更详细和全面的分析成为可能。这不仅有助于资源勘探和历史研究，还促进了人们对环境及其人类活动影响的更大意识。《磁性测量》的未来充满希望，为新发现和对我们星球历史与资源的更深入见解铺平了道路。