geophysics
简明释义
英[ˌdʒiːəʊˈfɪzɪks]美[ˌdʒiːoʊˈfɪzɪks]
n. 地球物理;地球物理学
英英释义
单词用法
勘探地球物理学;探测地球物理学 |
同义词
反义词
| 生物物理学 | Biophysics studies the physical principles underlying biological processes. | 生物物理学研究支撑生物过程的物理原理。 | |
| 天体物理学 | Astrophysics explores the physics of celestial bodies and the universe. | 天体物理学探讨天体和宇宙的物理学。 |
例句
1.Determining the thickness of "hidden layer" is an important problem in engineering geophysics and engineering geology.
确定“隐蔽层”的厚度,是工程物探、工程地质和工程地震学中的一个重要问题。
2.The problem of applying the research of load tide to Geophysics and Oceanography are discussed.
讨论了负荷潮研究在地球物理和海洋学方面的一些应用。
3.Indonesia's Climate, Meteorology and Geophysics Agency said the quake did not generate a tsunami.
印尼气候,气象和地球物理局说,这次地震没有引发海啸。
4.The VISTA seismic data processing system has been successfully applied in engineering geophysics.
VISTA地震数据处理系统已成功地应用于工程物理。
5.Geophysics major branch of earth science that applies the principles and methods of physics to the study of the earth.
地球物理学地球科学的主要分支,用物理学的方法和原理研究地球。
6.Stern challenge is proposed by the new technology and method of geophysics survey to the computer speed and memory.
地球物理勘察的新技术、新方法对计算机的速度和内存提出了严峻的挑战。
7.Geophysics makes the world go round.
地球物理令世界去轮。
8.In new century, Marine geophysics still keeps the position of front science.
在新的世纪里,海洋地球物理仍然保持着前沿科学的地位。
9.The guide function of geophysics was explained by looking back the humankind cognition process of solid earth.
通过回顾人类对固体地球的认识过程,说明了地球物理的先导作用。
10.Satellite technology has advanced the field of geophysics 地球物理学 significantly.
卫星技术显著推动了地球物理学领域的发展。
11.The principles of geophysics 地球物理学 are essential in earthquake research.
在地震研究中,地球物理学的原理是必不可少的。
12.Many universities offer degrees in geophysics 地球物理学 for students interested in Earth sciences.
许多大学为对地球科学感兴趣的学生提供地球物理学学位。
13.Geologists often rely on geophysics 地球物理学 to locate natural resources like oil and minerals.
地质学家通常依靠地球物理学来定位天然资源,如石油和矿物。
14.The study of geophysics 地球物理学 helps us understand the Earth's internal structure.
对地球物理学的研究帮助我们理解地球的内部结构。
作文
Geophysics is a branch of Earth sciences that applies the principles of physics to study the Earth and its environment. It encompasses a wide range of phenomena, including the Earth's magnetic and gravitational fields, seismic activity, and heat flow. The significance of geophysics (地球物理学) lies in its ability to provide insights into the structure and dynamics of our planet, which is crucial for understanding natural processes and addressing environmental challenges. One of the primary tools used in geophysics (地球物理学) is seismic imaging, which involves analyzing the waves generated by earthquakes or artificial sources. By studying how these waves travel through different layers of the Earth, scientists can create detailed images of subsurface structures. This technique is invaluable in various fields, including oil and gas exploration, where understanding the geological formations can lead to successful resource extraction.Another important aspect of geophysics (地球物理学) is the study of the Earth's magnetic field. The Earth's core generates a magnetic field that protects the planet from solar radiation and cosmic rays. By monitoring changes in this magnetic field, scientists can gain insights into the processes occurring within the Earth, such as plate tectonics and volcanic activity. Understanding these processes is essential for predicting natural disasters and mitigating their impacts on human populations.Moreover, geophysics (地球物理学) plays a critical role in environmental studies. For instance, it helps in assessing groundwater resources, which are vital for agriculture and drinking water. Techniques like electrical resistivity tomography allow researchers to map subsurface water reservoirs and monitor changes over time. This information is crucial for sustainable water management, especially in regions facing water scarcity.As climate change continues to pose significant threats to our planet, the role of geophysics (地球物理学) becomes even more important. Researchers use geophysical methods to study glacial movements, sea-level rise, and changes in land use. By understanding these phenomena, scientists can develop models to predict future changes and inform policy decisions aimed at mitigating climate impacts.In addition to its practical applications, geophysics (地球物理学) also contributes to our fundamental understanding of the Earth. It bridges the gap between various scientific disciplines, integrating geology, physics, and environmental science. This interdisciplinary approach fosters collaboration among scientists, leading to innovative solutions to complex problems.In conclusion, geophysics (地球物理学) is an essential field of study that provides valuable insights into the Earth's processes and resources. Its applications range from natural disaster prediction to resource exploration and environmental management. As we face increasing challenges related to climate change and resource depletion, the importance of geophysics (地球物理学) will only continue to grow. Understanding this discipline is crucial for anyone interested in Earth sciences and the future of our planet.
地球物理学是地球科学的一个分支,它运用物理学原理研究地球及其环境。它涵盖了广泛的现象,包括地球的磁场和重力场、地震活动和热流等。地球物理学(geophysics)的重要性在于它能够提供对我们星球结构和动态的洞察,这对于理解自然过程和应对环境挑战至关重要。在地球物理学(geophysics)中使用的主要工具之一是地震成像,它涉及分析由地震或人工源产生的波。通过研究这些波如何穿过地球不同层次,科学家可以创建地下结构的详细图像。这一技术在石油和天然气勘探等多个领域中具有重要价值,因为了解地质构造可以导致成功的资源开采。地球物理学(geophysics)的另一个重要方面是对地球磁场的研究。地球的核心产生的磁场保护着地球免受太阳辐射和宇宙射线的影响。通过监测这一磁场的变化,科学家可以深入了解地球内部发生的过程,例如板块构造和火山活动。理解这些过程对预测自然灾害及减轻其对人类影响至关重要。此外,地球物理学(geophysics)在环境研究中也发挥着关键作用。例如,它有助于评估地下水资源,这对农业和饮用水至关重要。电阻率断层成像等技术使研究人员能够绘制地下水储存的地图并监测随时间的变化。这些信息对可持续水资源管理至关重要,尤其是在面临水资源短缺的地区。随着气候变化不断对我们的星球构成重大威胁,地球物理学(geophysics)的角色变得愈发重要。研究人员利用地球物理方法研究冰川运动、海平面上升和土地利用变化。通过理解这些现象,科学家可以开发模型来预测未来的变化,并为旨在减轻气候影响的政策决策提供信息。除了其实际应用外,地球物理学(geophysics)还促进了我们对地球基本理解的提升。它弥合了各个科学学科之间的差距,整合了地质学、物理学和环境科学。这种跨学科的方法促进了科学家之间的合作,带来了应对复杂问题的创新解决方案。总之,地球物理学(geophysics)是一个至关重要的研究领域,为我们提供了对地球过程和资源的宝贵洞察。它的应用范围从自然灾害预测到资源勘探和环境管理。随着我们面临与气候变化和资源枯竭相关的日益严峻的挑战,地球物理学(geophysics)的重要性只会继续增长。理解这一学科对任何对地球科学和我们星球的未来感兴趣的人来说都是至关重要的。
