geological compass

简明释义

地质罗盘

英英释义

例句

1.During fieldwork, geologists rely on a geological compass 地质罗盘 to map out the geological features of the area.

在野外工作中，地质学家依靠地质罗盘 geological compass 来绘制该地区的地质特征。

2.In geology classes, students often learn how to use a geological compass 地质罗盘 to measure the orientation of rock layers.

在地质课上，学生们通常学习如何使用地质罗盘 geological compass 来测量岩层的方向。

3.When exploring caves, researchers often use a geological compass 地质罗盘 to navigate through complex rock formations.

在探索洞穴时，研究人员常常使用地质罗盘 geological compass 在复杂的岩层中导航。

4.The geological compass 地质罗盘 helps in identifying the geological history of an area by analyzing the angles of rock layers.

通过分析岩层的角度，地质罗盘 geological compass 有助于识别一个地区的地质历史。

5.A geological compass 地质罗盘 is essential for determining the strike and dip of geological formations.

使用地质罗盘 geological compass 对于确定地质构造的走向和倾角至关重要。

作文

The term geological compass refers to a specialized tool used by geologists and earth scientists to determine the orientation of rock layers and geological structures. This instrument is essential for understanding the Earth's history, as it helps in mapping the distribution of various geological formations. The geological compass is not just a simple navigational tool; it provides critical data that influences decisions in fields such as mineral exploration, environmental assessment, and construction planning.In the field of geology, understanding the orientation of rocks is crucial. The Earth’s crust is composed of numerous layers formed over millions of years, each telling a story about the planet's past. By using a geological compass, geologists can measure the dip and strike of rock layers. The dip refers to the angle at which a rock layer inclines from the horizontal, while the strike is the direction of the line formed by the intersection of a rock layer with a horizontal plane. These measurements help geologists to create accurate maps and models of the subsurface geology.The importance of the geological compass extends beyond academic research. In the mining industry, for example, knowing the orientation of ore deposits can significantly impact the efficiency of extraction processes. If a mining company understands the geological structure well, it can plan its operations more effectively, reducing costs and minimizing environmental impact.Moreover, during construction projects, engineers and architects rely on geological surveys that often utilize the geological compass. Understanding the underlying geology is vital for ensuring the stability of structures. For instance, if a building is planned on a site with unstable soil or rock, the measurements taken with a geological compass can help in making necessary adjustments to the design or location of the building.Additionally, the geological compass plays a role in environmental studies. It assists in identifying potential hazards such as landslides or earthquakes by providing data on fault lines and other geological features. By understanding the orientation and characteristics of these features, scientists can better assess risks and develop strategies for mitigation.In educational settings, the geological compass is an invaluable teaching tool. Students learning about geology can gain hands-on experience with this instrument, enhancing their understanding of geological concepts. By measuring real-world rock formations, students can connect theoretical knowledge with practical applications, fostering a deeper appreciation for the complexities of the Earth.In conclusion, the geological compass is much more than a navigational aid; it is a fundamental instrument that provides essential insights into the Earth's geological framework. Its applications span across various fields, including mining, construction, environmental science, and education. As we continue to explore and understand our planet, tools like the geological compass will remain vital in unlocking the secrets of the Earth’s past and guiding us toward a sustainable future.

“地质罗盘”一词指的是一种专门用于地质学家和地球科学家的工具，用于确定岩层和地质结构的方向。这个仪器对于理解地球的历史至关重要，因为它有助于绘制各种地质构造的分布。“地质罗盘”不仅仅是一个简单的导航工具；它提供的关键数据影响着矿产勘探、环境评估和建设规划等领域的决策。在地质学领域，了解岩石的方向至关重要。地球的地壳由许多层组成，这些层是在数百万年中形成的，每一层都讲述着关于地球过去的故事。通过使用“地质罗盘”，地质学家可以测量岩层的倾斜度和走向。倾斜度是指岩层从水平面倾斜的角度，而走向是指岩层与水平面交叉所形成的线的方向。这些测量帮助地质学家创建准确的地图和地下地质模型。“地质罗盘”的重要性超出了学术研究。例如，在采矿行业，了解矿石沉积物的方向可以显著影响开采过程的效率。如果一家矿业公司很好地理解地质结构，它可以更有效地规划其运营，从而降低成本并最小化对环境的影响。此外，在建筑项目中，工程师和建筑师依赖于通常利用“地质罗盘”的地质调查。了解地下地质对于确保结构的稳定性至关重要。例如，如果计划在不稳定的土壤或岩石上建造一栋建筑，通过“地质罗盘”获得的测量数据可以帮助进行必要的设计或位置调整。此外，“地质罗盘”在环境研究中也发挥着作用。它通过提供有关断层线和其他地质特征的数据，帮助识别潜在的危险，例如滑坡或地震。通过了解这些特征的方向和特性，科学家可以更好地评估风险并制定缓解策略。在教育环境中，“地质罗盘”是一种宝贵的教学工具。学习地质学的学生可以通过使用这种仪器获得实践经验，从而增强他们对地质概念的理解。通过测量真实世界的岩层，学生可以将理论知识与实际应用相结合，培养对地球复杂性的更深刻的认识。总之，“地质罗盘”不仅仅是一个导航辅助工具；它是一个基本的仪器，提供了对地球地质框架的重要见解。它的应用跨越了多个领域，包括采矿、建筑、环境科学和教育。随着我们继续探索和理解我们的星球，像“地质罗盘”这样的工具将在揭示地球过去的秘密和引导我们走向可持续未来方面发挥重要作用。