microearthquake
简明释义
英[ˌmaɪkroʊˈɜrθkweɪk]美[ˌmaɪkroʊˈɜrθkweɪk]
微震
英英释义
A microearthquake is a small seismic event that typically has a magnitude of less than 3.0 on the Richter scale and is generally not felt by people. | 微震是指震级通常小于3.0的地震事件,通常人们不会感到其震动。 |
单词用法
同义词
| 小地震 | 该地区上周经历了几次小地震。 | ||
| 轻微震动 | 地震学家记录到在断层线附近发生了一次轻微震动。 | ||
| 微震事件 | Microseismic events are often too weak to be felt by humans. | 微震事件通常太弱,无法被人类感知。 |
反义词
| 大地震 | 这次大地震对城市造成了重大损害。 | ||
| 地震事件 | Scientists are monitoring seismic events to predict future earthquakes. | 科学家们正在监测地震事件以预测未来的地震。 |
例句
1.This result show that the success rate of earthquake prediction might be increased by using both the microearthquake indication and the remote sensing indication.
这说明综合应用微震前兆和遥感前兆来预报地震有助于提高预报的成功率。
2.This result show that the success rate of earthquake prediction might be increased by using both the microearthquake indication and the remote sensing indication.
这说明综合应用微震前兆和遥感前兆来预报地震有助于提高预报的成功率。
3.The local community was unaware of the microearthquake 微震 that occurred while they slept.
当地社区对他们睡觉时发生的微震毫无所知。
4.During the geological survey, several microearthquakes 微震 were noted in the region, prompting further investigation.
在地质调查中,该地区注意到几次微震,促使进一步的调查。
5.A network of seismographs is used to monitor microearthquakes 微震 and assess earthquake risks.
使用一网络的地震仪监测微震并评估地震风险。
6.The sensors recorded a series of microearthquakes 微震 that could help scientists understand tectonic movements.
传感器记录了一系列的微震,这可以帮助科学家理解构造运动。
7.Researchers detected a small microearthquake 微震 near the volcano, indicating potential volcanic activity.
研究人员在火山附近检测到了一次小的微震,这表明火山可能会活动。
作文
In the realm of geology, the study of seismic activities plays a crucial role in understanding the Earth's dynamics. One term that often arises in this field is microearthquake, which refers to small-scale earthquakes that typically have a magnitude of less than 3.0 on the Richter scale. These tremors are usually not felt by people but can be detected by sensitive seismographs. The significance of microearthquake events lies in their ability to provide valuable data about the Earth's crust and tectonic movements. Microearthquakes are frequent occurrences, especially in regions with active tectonic plates. They serve as indicators of stress accumulation within the Earth's crust, which may eventually lead to larger seismic events. By monitoring these small quakes, scientists can gain insights into the geological processes at play beneath the surface. For instance, a series of microearthquake activities in a specific area may suggest that the tectonic plates are shifting, potentially signaling the onset of a larger earthquake in the future.The technology used to detect microearthquake events has advanced significantly over the years. Modern seismographs are capable of picking up even the faintest vibrations caused by these small quakes. As researchers analyze the data collected from these instruments, they can map out areas of heightened seismic activity and assess the risks associated with them. This information is vital for disaster preparedness and risk mitigation strategies, particularly in regions prone to earthquakes.Moreover, microearthquake studies have applications beyond just predicting larger earthquakes. They can also assist in resource exploration, such as oil and gas drilling. By understanding the patterns of small seismic activities, companies can better identify where to drill, minimizing the environmental impact and maximizing efficiency. Thus, the study of microearthquake phenomena contributes not only to our knowledge of geophysical processes but also to practical applications in various industries.In conclusion, while microearthquake events may seem insignificant at first glance, they hold immense value in the field of geology. Their study enhances our understanding of the Earth's internal processes, aids in earthquake prediction, and has practical implications for resource exploration. As technology continues to evolve, the ability to monitor and analyze these small seismic events will undoubtedly improve, leading to greater advancements in both scientific research and practical applications. The importance of microearthquake research cannot be understated, as it serves as a key component in our ongoing quest to comprehend the complexities of our planet's geology.
在地质学领域,地震活动的研究在理解地球动态中起着至关重要的作用。一个常常出现在这个领域的术语是微震,它指的是通常在里氏规模上小于3.0的小规模地震。这些震动通常不会被人们感知,但可以被敏感的地震仪检测到。微震事件的重要性在于它们能够提供有关地壳和构造运动的宝贵数据。微震在活跃的构造板块区域是频繁发生的现象。它们作为地壳内应力积累的指标,最终可能导致更大的地震事件。通过监测这些小震动,科学家可以深入了解地表下的地质过程。例如,特定区域的一系列微震活动可能表明构造板块正在移动,潜在地预示着未来较大地震的发生。用于检测微震事件的技术近年来有了显著进步。现代地震仪能够捕捉到这些小震动造成的微弱振动。当研究人员分析从这些仪器收集的数据时,他们可以绘制出高震动活动区域的地图,并评估与之相关的风险。这些信息对于灾难准备和风险缓解策略至关重要,尤其是在地震多发地区。此外,微震研究不仅限于预测较大地震。它们还可以帮助资源勘探,比如石油和天然气钻探。通过了解小规模地震活动的模式,公司可以更好地识别钻探位置,最大限度地减少对环境的影响并提高效率。因此,微震现象的研究不仅增加了我们对地球物理过程的知识,还有助于各行业的实际应用。总之,虽然微震事件乍一看似乎微不足道,但它们在地质学领域中具有巨大的价值。它们的研究增强了我们对地球内部过程的理解,帮助地震预测,并对资源勘探具有实际意义。随着技术的不断发展,监测和分析这些小规模地震事件的能力无疑会有所改善,从而推动科学研究和实际应用的重大进展。微震研究的重要性不容小觑,因为它是我们持续探索理解地球复杂性的关键组成部分。
