seism

简明释义

英[ˈsaɪzəm]美['saɪzəm]

n. 地震

英英释义

单词用法

同义词

反义词

例句

1.Dynamic mechanical phenomena such as rock bursting in colliery are necessarily related to micro-seism of rock body.

煤矿冲击矿压、矿震等煤岩动力现象，与岩体的微震事件有着必然联系。

2.Secondly, the transmission rules and characteristics of blasting seism wave are analyzed in the paper. The methods of analyzing and predicting blasting vibration are introduced in this paper too.

其次，在分析地震波的特征和传播规律的基础上，介绍了爆破地震振动分析与预测的方法；

3.The interval of the last large seism is even shorter than the prediction by this acceleration regularity in a seismic active period.

在一个活跃期中，最后一个大震的时间间隔比这个规律规定的时间间隔更短。

4.Studying on seism and geology and historical earthquake activity obtained some advancement in Anhui recent years.

近年来，在安徽地区地震地质、历史地震活动研究等方面取得了一定的进展。

5.It is found that seism process can improve sandstone reservoir quality.

研究发现地震对地层的改造作用能改善砂岩储层的储集物性。

6.Its response to seism has been analyzed by the response spectra method and the linear history method.

分别按反应谱理论和线性时程反应理论计算其在地震作用下的响应。

7.The recent seism 地震 in the region caused significant damage to buildings.

该地区最近的seism 地震对建筑物造成了严重破坏。

8.Scientists are studying the seism 地震 patterns to predict future activity.

科学家们正在研究seism 地震模式，以预测未来的活动。

9.After the seism 地震, emergency services were deployed to assist affected areas.

在seism 地震之后，紧急服务被派往协助受影响地区。

10.The seism 地震 registered a magnitude of 7.2 on the Richter scale.

这次seism 地震在里氏震级上注册为7.2。

11.Residents were advised to prepare for potential seism 地震 events.

居民被建议为潜在的seism 地震事件做好准备。

作文

Understanding the concept of seism (地震) is crucial in today's world, where natural disasters can have devastating effects on communities and economies. A seism refers to an earthquake or tremor that occurs as a result of tectonic plate movements beneath the Earth's surface. These movements can release energy that has accumulated over time, resulting in seismic waves that shake the ground and can cause significant damage. The study of seismology (地震学), the scientific discipline dedicated to understanding earthquakes, is vital for predicting and mitigating the impacts of these natural events. By analyzing historical data and monitoring current seismic activity, scientists can identify patterns that may indicate when and where future seism events might occur. This information is essential for emergency preparedness and can save lives by providing early warnings to at-risk populations. In regions prone to high seismic activity, such as the Pacific Ring of Fire, communities often implement strict building codes designed to withstand the forces generated by an earthquake. These regulations help ensure that structures are more resilient during a seism, potentially reducing the loss of life and property. Additionally, public education campaigns inform residents about earthquake safety measures, such as 'Drop, Cover, and Hold On' techniques, which can be lifesaving during a seism. Another important aspect of understanding seism is recognizing its impact on infrastructure and the economy. Major earthquakes can disrupt transportation networks, utilities, and communication systems, leading to widespread chaos and economic losses. For instance, the 1994 Northridge seism in California caused billions of dollars in damages and highlighted the need for improved infrastructure resilience. Moreover, the psychological effects of a seism can linger long after the physical damage has been repaired. Survivors may experience post-traumatic stress disorder (PTSD) or anxiety related to the fear of future seism events. Therefore, mental health support is essential in the aftermath of a major earthquake, as communities work to rebuild and recover. In conclusion, the term seism (地震) encompasses much more than just the shaking of the ground; it represents a complex interplay of geological, social, and economic factors. Understanding seism and its implications is critical for developing effective disaster response strategies and fostering resilient communities. As we continue to advance our knowledge in seismology, we can better prepare for the inevitable challenges posed by these natural phenomena and work towards minimizing their impact on society.

理解seism（地震）这一概念在当今世界至关重要，因为自然灾害可能对社区和经济产生毁灭性的影响。seism是指由于地球表面下的构造板块运动而发生的地震或震动。这些运动可能释放出长期积累的能量，从而产生震动波，摇动地面，可能造成重大损害。 seism学（地震学）是专门研究地震的科学学科，对于预测和减轻这些自然事件的影响至关重要。通过分析历史数据和监测当前的震动活动，科学家可以识别出可能指示未来seism事件何时何地发生的模式。这些信息对于应急准备至关重要，并且可以通过向处于危险中的人群提供早期警报来挽救生命。 在高seism活动频繁的地区，例如太平洋火环，社区通常会实施严格的建筑规范，以抵御地震产生的力量。这些规定有助于确保建筑物在seism期间更具韧性，从而可能减少生命和财产的损失。此外，公共教育活动还告知居民地震安全措施，如“趴下、掩护和保持镇定”技术，这在seism期间可能挽救生命。 理解seism的另一个重要方面是认识其对基础设施和经济的影响。大规模地震可能会破坏交通网络、公用事业和通信系统，导致广泛的混乱和经济损失。例如，1994年加利福尼亚的诺斯里奇seism造成了数十亿美元的损失，并强调了改善基础设施韧性的必要性。 此外，seism的心理影响可能在身体损害修复后仍然持续很久。幸存者可能会经历创伤后应激障碍（PTSD）或与未来seism事件相关的焦虑。因此，在重大地震发生后，心理健康支持至关重要，因为社区需要重建和恢复。 总之，术语seism（地震）不仅仅包括地面的摇晃；它代表了地质、社会和经济因素之间复杂的相互作用。理解seism及其影响对于制定有效的灾害响应策略和促进社区韧性至关重要。随着我们继续推进对seism学的知识，我们可以更好地为这些自然现象带来的不可避免的挑战做好准备，并努力将其对社会的影响降到最低。