seismologic

简明释义

英[/ˌsaɪzməˈlɒdʒɪk/]美[/ˌsaɪzməˈlɑdʒɪk/]

adj. 地震学的

英英释义

单词用法

同义词

反义词

例句

1.The establishment of earthquake computing grid environment and distributed seismologic data sharing service system will effectively solve the problems in the resources sharing.

建立地震网格计算环境和分布式协同应用地震数据共享服务系统，可以有效的解决当前资源共享面临的问题。

2.The establishment of earthquake computing grid environment and distributed seismologic data sharing service system will effectively solve the problems in the resources sharing.

建立地震网格计算环境和分布式协同应用地震数据共享服务系统，可以有效的解决当前资源共享面临的问题。

3.This paper discussed the seismologic reasons for the occurrence of deep seated rupture zones according to elastic wave kinetics.

讨论了根据弹性波作用下岩体的动力学响应，阐述了深部裂缝带发生的地震学原因。

4.The researchers published a paper on the latest findings in seismologic 地震学的 studies.

研究人员发表了一篇关于最新发现的地震学的研究论文。

5.Understanding seismologic 地震学的 data is crucial for predicting earthquakes.

理解地震学的数据对于预测地震至关重要。

6.The seismologic 地震学的 survey revealed several fault lines in the region.

这项地震学的调查揭示了该地区的几条断层线。

7.Engineers rely on seismologic 地震学的 information when designing buildings in earthquake-prone areas.

工程师在设计地震易发地区的建筑时依赖于地震学的信息。

8.The university has a dedicated department for seismologic 地震学的 research and education.

该大学设有专门的部门进行地震学的研究和教育。

作文

The study of earthquakes and the seismic waves they produce is known as seismology. This field of science plays a crucial role in understanding the dynamics of the Earth’s crust and the various factors that contribute to seismic activity. When we talk about seismologic events, we are referring to phenomena that are related to or caused by earthquakes, including their impact on human life and infrastructure. Understanding seismologic activities is essential for disaster preparedness and risk mitigation in earthquake-prone areas. In many regions around the world, especially those located near tectonic plate boundaries, the threat of earthquakes looms large. These areas experience frequent seismologic activity, which can lead to devastating consequences if not properly monitored and managed. For instance, cities like San Francisco and Tokyo have invested heavily in seismologic research to develop early warning systems and building codes that can withstand the forces of an earthquake. The advancements in technology have significantly improved our ability to study seismologic phenomena. Seismographs, which are instruments that measure the motion of the ground during an earthquake, provide valuable data that help scientists analyze the characteristics of seismic waves. This information is crucial for understanding the magnitude and intensity of earthquakes, as well as predicting potential aftershocks. Moreover, the knowledge gained from seismologic studies is not only beneficial for immediate responses to earthquakes but also for long-term urban planning and development. By assessing the seismic risk of a region, city planners can make informed decisions about where to build new structures and how to reinforce existing ones. This proactive approach can save lives and reduce economic losses in the event of an earthquake. In addition to urban planning, seismologic research contributes to the broader understanding of geological processes. Earthquakes are not isolated events; they are part of a larger system of tectonic movements that shape our planet. By studying these processes, scientists can gain insights into the history of the Earth and how it has evolved over millions of years. This knowledge is invaluable for both scientific research and practical applications. Public awareness and education regarding seismologic risks are also vital components of earthquake preparedness. Communities in high-risk areas should be educated about the signs of an impending earthquake and the steps they can take to protect themselves. Schools, businesses, and local governments can work together to create emergency response plans that include evacuation routes and safety protocols. The more informed people are about seismologic hazards, the better equipped they will be to respond effectively in times of crisis. In conclusion, the importance of seismologic research cannot be overstated. It not only enhances our understanding of earthquakes but also informs policies and practices that can save lives and minimize damage. As we continue to advance our knowledge in this field, it is imperative that we apply what we learn to create safer communities and resilient infrastructures. By prioritizing seismologic studies and their applications, we can work towards a future where the impacts of earthquakes are significantly reduced, ensuring the safety and well-being of populations worldwide.

地震及其产生的地震波的研究被称为地震学。这一科学领域在理解地壳动态及导致地震活动的各种因素方面发挥着至关重要的作用。当我们谈论地震学事件时，我们指的是与地震相关或由地震引起的现象，包括它们对人类生活和基础设施的影响。理解地震学活动对于地震多发地区的灾害准备和风险减轻至关重要。 在世界许多地区，尤其是那些位于构造板块边界附近的地区，地震的威胁显得尤为严重。这些地区经历频繁的地震学活动，如果不加以妥善监测和管理，可能会导致毁灭性的后果。例如，旧金山和东京等城市在地震学研究方面投入了大量资金，以开发早期预警系统和能够承受地震力量的建筑规范。 科技的进步显著提高了我们研究地震学现象的能力。地震仪是测量地震期间地面运动的仪器，它提供的宝贵数据帮助科学家分析地震波的特征。这些信息对于了解地震的震级和强度以及预测潜在余震至关重要。 此外，从地震学研究中获得的知识不仅对地震的即时反应有益，还对长期的城市规划和发展具有重要意义。通过评估一个地区的地震风险，城市规划者可以就新建筑的选址和现有建筑的加固做出明智决策。这种主动的做法可以拯救生命并减少地震发生时的经济损失。 除了城市规划外，地震学研究还促进了对地质过程的更广泛理解。地震不是孤立事件；它们是塑造我们星球的构造运动更大系统的一部分。通过研究这些过程，科学家可以深入了解地球的历史以及它在数百万年间的演变。这些知识对于科学研究和实际应用都具有无价之宝的价值。 公众对地震学风险的认识和教育也是地震准备的重要组成部分。高风险地区的社区应当了解即将来临的地震迹象以及他们可以采取的保护措施。学校、企业和地方政府可以共同努力制定紧急响应计划，包括撤离路线和安全协议。人们对地震学危害了解得越多，他们在危机时期就越能有效应对。 总之，地震学研究的重要性不容小觑。它不仅增强了我们对地震的理解，还为可以拯救生命和减少损失的政策和实践提供了依据。随着我们在这一领域不断推进知识，务必将所学应用于创造更安全的社区和韧性基础设施。通过优先考虑地震学研究及其应用，我们可以朝着一个显著减少地震影响的未来迈进，确保全球人口的安全和福祉。