Bouguer's halo

简明释义

雾虹

英英释义

例句

1.The impact of Bouguer's halo 布戈尔光晕 on gravitational anomalies was a key focus of the conference.

会议的一个重点是 布戈尔光晕 Bouguer's halo 对重力异常的影响。

2.The team used advanced software to correct for Bouguer's halo 布戈尔光晕 effects in their gravity surveys.

该团队使用先进的软件来修正重力调查中的 布戈尔光晕 Bouguer's halo 效应。

3.Understanding Bouguer's halo 布戈尔光晕 is crucial for accurate geological modeling.

理解 布戈尔光晕 Bouguer's halo 对于准确的地质建模至关重要。

4.In his research, he discovered that Bouguer's halo 布戈尔光晕 could lead to significant errors in satellite data interpretation.

在他的研究中，他发现 布戈尔光晕 Bouguer's halo 可能会导致卫星数据解读中的重大错误。

5.The geologist explained how the Bouguer's halo 布戈尔光晕 can affect gravity measurements in mountainous regions.

地质学家解释了如何在山区中，布戈尔光晕 Bouguer's halo 会影响重力测量。

作文

In the field of geophysics, there are many phenomena that help scientists understand the Earth's structure and its gravitational field. One such phenomenon is known as Bouguer's halo, which refers to a specific gravitational effect observed around geological formations. This effect is named after the French geodesist Pierre Bouguer, who contributed significantly to the study of gravity and its variations due to geological structures. Understanding Bouguer's halo is essential for geophysicists as it provides insights into subsurface density variations and helps in interpreting gravitational data.The concept of Bouguer's halo arises from the gravitational attraction exerted by different materials within the Earth. When measuring gravity at the surface, the presence of dense materials, such as minerals or rocks, can create an enhancement in the gravitational field. This enhancement is not uniform; instead, it forms a halo-like pattern around the dense body. The understanding of this halo effect is crucial for accurate gravity measurements, particularly in mineral exploration and geological mapping.When geophysicists conduct gravity surveys, they often encounter anomalies that can be attributed to Bouguer's halo. These anomalies can indicate the presence of mineral deposits or other geological features. For example, if a survey reveals a significant gravitational pull in a specific area, it may suggest that there is a concentration of dense material beneath the surface. By analyzing the shape and extent of the Bouguer's halo, scientists can infer the depth and size of the underlying geological structure.In practical applications, understanding Bouguer's halo has led to more efficient resource exploration. Companies engaged in mining and oil extraction utilize gravity surveys to locate potential sites for drilling. The ability to interpret the gravitational data accurately, considering the effects of Bouguer's halo, allows these companies to make informed decisions about where to invest their resources.Moreover, Bouguer's halo is not only relevant to resource exploration but also plays a role in environmental studies. For instance, when assessing the impact of human activities on geological formations, scientists can use gravity measurements to monitor changes in subsurface density. This monitoring can provide valuable information regarding land subsidence, aquifer depletion, or even the effects of natural disasters such as earthquakes.In conclusion, Bouguer's halo is a significant concept in geophysics that aids in understanding the Earth's gravitational field and the distribution of geological materials. Its implications extend beyond academic research; they are vital for practical applications in resource exploration and environmental monitoring. As technology advances and gravity measurement techniques improve, the study of Bouguer's halo will continue to evolve, offering deeper insights into our planet's complex subsurface dynamics.

Bouguer's halo是地球物理学领域中的一个重要现象，帮助科学家理解地球的结构及其重力场。这个现象以法国大地测量学家皮埃尔·布戈（Pierre Bouguer）的名字命名，他对重力及其因地质结构而产生的变化的研究做出了重要贡献。理解Bouguer's halo对于地球物理学家至关重要，因为它提供了对地下密度变化的洞察，并帮助解释重力数据。Bouguer's halo的概念源于地球内部不同材料所施加的重力吸引。当在地表测量重力时，密集材料（如矿物或岩石）的存在可能会导致重力场的增强。这种增强并不均匀，而是形成一种围绕密集体的光环状模式。理解这种光环效应对于准确的重力测量至关重要，特别是在矿产勘探和地质制图中。当地球物理学家进行重力调查时，他们常常会遇到可以归因于Bouguer's halo的异常。这些异常可能表明地下存在矿藏或其他地质特征。例如，如果调查显示某一特定区域有显著的重力吸引，这可能暗示该区域地下存在浓缩的密集材料。通过分析Bouguer's halo的形状和范围，科学家可以推断出潜在地质结构的深度和大小。在实际应用中，理解Bouguer's halo使得资源勘探更加高效。参与采矿和石油开采的公司利用重力调查来定位潜在的钻探地点。准确解读重力数据的能力，考虑到Bouguer's halo的影响，使这些公司能够做出明智的资源投资决策。此外，Bouguer's halo不仅与资源勘探相关，还在环境研究中发挥着作用。例如，在评估人类活动对地质结构的影响时，科学家可以利用重力测量监测地下密度的变化。这种监测可以提供有关土地沉降、含水层枯竭甚至自然灾害（如地震）影响的宝贵信息。总之，Bouguer's halo是地球物理学中的一个重要概念，有助于理解地球的重力场和地质材料的分布。其影响超越了学术研究，对于资源勘探和环境监测的实际应用至关重要。随着技术的进步和重力测量技术的改善，Bouguer's halo的研究将继续发展，为我们提供更深入的关于地球复杂地下动态的洞察。