seismology

简明释义

英[saɪzˈmɒlədʒi]美[saɪzˈmɑːlədʒi]

n. 地震学

英英释义

单词用法

同义词

反义词

例句

1.Input data are mainly from geology, well logging, seismology and geochemistry.

输入资料主要来自于地质、测井、地震和地化。

2.Spectrum magnitude of an earthquake is an important source parameter of earthquake size in seismology research.

谱震级是表征地震强弱的量度，是地震学研究中的一个重要的地震参数。

3.The contemporary seismology also needs basic research, technical support and scientific engineering.

现代地震学同样需要基础研究、支撑技术和科学工程。

4.Establishing an on-line retrievable journal paper database of seismology, these journals are published in China.

将国内出版的地震学期刊论文，建立一个联机检索数据库。

5.It will house researchers from fields as diverse as neutrino astronomy, cosmology, seismology and atmospheric physics.

科考站将迎接来自各个领域的研究人员，研究领域涉及：微中子天文学、宇宙学、地震学和大气物理学。

6.It is a great significant for surveying the full fields seismic movement in seismology and seismic prospecting as well as model seismology.

记录地面运动的全波场，对地震学、地震勘探学以及地震模型试验都有重要的意义。

7.The last system also corresponds to the real time seismology.

其中，最后一个体系即相当于实时地震学。

8.In this article, the applied investigations of fractals and chaotic theory to seismology are reviewed in detail.

本文较详细地综述了近年来分形与混沌理论在地震学中的应用研究。

9.The study of earthquakes falls under the field of seismology, which is 地震学.

地震的研究属于seismology的领域，即地震学。

10.Scientists use seismology to better understand the Earth's interior, which is known as 地震学.

科学家使用seismology来更好地理解地球内部，这被称为地震学。

11.Many universities offer degrees in seismology for those interested in 地震学.

许多大学提供seismology的学位，适合对地震学感兴趣的人。

12.The latest advancements in seismology have improved our ability to predict earthquakes, which is 地震学的进步.

最新的seismology进展提高了我们预测地震的能力，这就是地震学的进步。

13.In seismology, researchers analyze seismic waves to gather data about the Earth's structure, which is 地震学中的研究.

在seismology中，研究人员分析地震波以获取有关地球结构的数据，这就是地震学中的研究。

作文

Seismology, or 地震学, is the scientific study of earthquakes and the propagation of seismic waves through the Earth. This discipline is crucial for understanding the dynamics of our planet and the forces that shape it. Earthquakes are natural phenomena that can cause significant destruction, leading to loss of life and property. Therefore, the study of 地震学 is essential not only for scientific advancement but also for public safety and disaster preparedness. The field of seismology has evolved significantly over the years. Early studies were primarily observational, focusing on the effects of earthquakes rather than their causes. However, with advancements in technology, modern 地震学 employs sophisticated instruments such as seismographs to detect and record seismic waves. These devices allow scientists to analyze the intensity, duration, and frequency of earthquakes, providing valuable data that can lead to better predictions and understanding of seismic activity. One of the key components of seismology is the study of tectonic plates. The Earth's crust is divided into several large and small plates that float on the semi-fluid mantle beneath them. The movement of these plates can create stress along fault lines, which, when released, results in an earthquake. By studying these movements, seismologists can identify areas that are at higher risk for seismic activity, thus aiding in the development of safety measures and building codes in earthquake-prone regions. In addition to understanding the mechanics of earthquakes, 地震学 also involves studying the impact of these events on society. For instance, the 2011 Tōhoku earthquake in Japan was one of the most powerful earthquakes ever recorded, resulting in a devastating tsunami and nuclear disaster. Research in seismology helps us learn from such events, improving our response strategies and enhancing community resilience against future disasters. Furthermore, 地震学 plays a vital role in informing policy decisions related to urban planning and infrastructure development. Areas identified as high-risk for earthquakes require special attention when it comes to constructing buildings and roads. Implementing strict building codes and conducting regular safety drills are essential practices that emerge from the findings of seismology. Moreover, the implications of 地震学 extend beyond just earthquakes. The knowledge gained from studying seismic waves can also be applied in other fields, such as oil and gas exploration. Seismic surveys help locate potential resources beneath the Earth's surface, showcasing the interdisciplinary nature of this field. In conclusion, seismology is a multifaceted science that provides critical insights into the Earth's processes and helps mitigate the risks associated with earthquakes. As we continue to face challenges posed by natural disasters, the importance of 地震学 will only grow. Investing in research and education in this field is paramount for ensuring a safer future for communities worldwide. Understanding the principles of seismology not only enriches our scientific knowledge but also empowers us to protect lives and property from the unpredictable forces of nature.

地震学，即seismology，是对地震及其在地球中传播的地震波进行科学研究的学科。这一领域对于理解我们星球的动态和塑造地球的力量至关重要。地震是自然现象，可以造成重大破坏，导致生命和财产的损失。因此，研究地震学不仅对科学进步至关重要，也对公众安全和灾难准备至关重要。 地震学领域多年来发生了显著变化。早期的研究主要是观察性的，集中于地震的影响而非其原因。然而，随着技术的进步，现代地震学采用复杂的仪器，如地震仪，来检测和记录地震波。这些设备使科学家能够分析地震的强度、持续时间和频率，从而提供有价值的数据，这些数据可以导致更好的预测和对地震活动的理解。 地震学的一个关键组成部分是对构造板块的研究。地球的地壳被分为几个大大小小的板块，这些板块漂浮在其下的半流体地幔上。这些板块的运动会在断层线上产生压力，当这种压力释放时，就会导致地震。通过研究这些运动，地震学家可以识别出地震活动风险较高的区域，从而帮助制定安全措施和建筑规范，尤其是在易发生地震的地区。 除了理解地震的机制，地震学还涉及研究这些事件对社会的影响。例如，2011年日本的东日本大地震是有史以来记录到的最强地震之一，导致了毁灭性的海啸和核灾难。对地震学的研究帮助我们从这样的事件中吸取教训，提高我们的应对策略，并增强社区对未来灾难的韧性。 此外，地震学在告知与城市规划和基础设施开发相关的政策决策方面也发挥着至关重要的作用。被识别为高风险地震区的地区，在建造建筑物和道路时需要特别关注。实施严格的建筑规范和定期进行安全演练是基于地震学研究结果而形成的重要实践。 此外，地震学的影响不仅限于地震。从研究地震波中获得的知识也可以应用于其他领域，例如石油和天然气勘探。地震勘探帮助定位地球表面下的潜在资源，展示了这一领域的跨学科特性。 总之，地震学是一门多方面的科学，为我们提供了对地球过程的关键见解，并帮助减轻与地震相关的风险。随着我们继续面临自然灾害带来的挑战，地震学的重要性只会增加。投资于该领域的研究和教育对于确保全球社区的安全未来至关重要。理解地震学的原理不仅丰富了我们的科学知识，还使我们能够保护生命和财产免受自然不可预测力量的侵害。