coseismal
简明释义
adj. 等震波圈上的;同震曲线的
n. 同震曲线
英英释义
Referring to points or locations that experience the same seismic event at the same time. | 指在同一时间经历相同地震事件的点或位置。 |
单词用法
共震区域 | |
共震波 | |
共震现象 | |
共震地区 |
同义词
| 共震的 | The coseismal lines indicate areas affected by the same seismic event. | 共震线表示受同一地震事件影响的区域。 | |
| 同步的 | The synchronous tremors were felt across the region during the earthquake. | 在地震期间,该地区感受到同步的震动。 |
反义词
例句
1.The short coseismal step was recorded in tilt and strain data.
倾斜和应变记录到同震阶跃,但持续时间相对较短。
2.The short coseismal step was recorded in tilt and strain data.
倾斜和应变记录到同震阶跃,但持续时间相对较短。
3.In their report, they highlighted the importance of studying coseismal 同震的 relationships between fault lines.
在他们的报告中,他们强调了研究断层线之间coseismal 同震的关系的重要性。
4.Data from coseismal 同震的 events can help improve our understanding of seismic activity.
来自coseismal 同震的事件的数据可以帮助我们提高对地震活动的理解。
5.The coseismal 同震的 data provided insight into the timing and magnitude of the aftershocks.
这些coseismal 同震的数据为余震的时间和强度提供了洞察。
6.The scientists mapped the coseismal 同震的 areas to analyze the impact of the tremors on the local infrastructure.
科学家们绘制了coseismal 同震的区域地图,以分析震动对当地基础设施的影响。
7.The researchers studied the geological features of the region to identify the coseismal 同震的 patterns following the earthquake.
研究人员研究了该地区的地质特征,以识别地震后出现的coseismal 同震的模式。
作文
In the study of geology and seismology, the term coseismal refers to phenomena that occur simultaneously during an earthquake. Understanding coseismal effects is crucial for researchers who aim to analyze the impact of seismic activities on different geographical areas. For instance, when an earthquake strikes a region, various coseismal events such as ground shaking, surface rupture, and secondary hazards like landslides or tsunamis may follow immediately. These occurrences can significantly affect the safety and stability of structures and ecosystems in the vicinity.One of the most notable examples of coseismal effects can be observed in the aftermath of the 2011 Tōhoku earthquake in Japan. The earthquake, which registered a magnitude of 9.0, caused extensive coseismal damage not only through the initial shaking but also through subsequent tsunamis. The simultaneous occurrence of these events exemplifies the importance of understanding coseismal interactions to mitigate risks in future seismic events.Geologists and engineers often study coseismal data to improve building codes and disaster preparedness strategies. By analyzing how buildings respond to coseismal forces, they can design structures that are more resilient to earthquakes. This knowledge is vital for urban planning, especially in areas that are prone to seismic activity. For example, cities located along fault lines must prioritize the construction of coseismal resistant infrastructure to protect their populations from potential disasters.Moreover, the study of coseismal phenomena extends beyond just immediate physical effects. It also encompasses social and economic impacts. After a significant earthquake, communities must deal with the coseismal consequences, including displacement, loss of livelihood, and psychological trauma. Understanding these multifaceted effects is essential for developing comprehensive recovery plans that address not only the physical rebuilding of structures but also the emotional and social healing of affected individuals.In conclusion, the term coseismal plays a vital role in the field of seismology and disaster management. By studying coseismal events, scientists and engineers can enhance their understanding of earthquakes and their effects on the environment and society. This knowledge is crucial for creating safer communities and minimizing the devastating impacts of future seismic activities. As we continue to advance our understanding of these phenomena, it is imperative that we integrate this knowledge into our policies and practices to ensure a more resilient future for all.
在地质学和地震学的研究中,术语coseismal指的是在地震期间同时发生的现象。理解coseismal效应对于希望分析地震活动对不同地理区域影响的研究人员至关重要。例如,当地震袭击一个地区时,随之而来的各种coseismal事件,如地面震动、地表破裂以及次生灾害(如滑坡或海啸)可能会立即发生。这些现象会显著影响周围结构和生态系统的安全性和稳定性。一个最显著的coseismal效应例子可以在2011年日本东日本大地震的后果中观察到。这场地震的震中为9.0级,不仅通过初始震动造成了广泛的coseismal损害,还引发了随后的海啸。这些事件的同时发生强调了理解coseismal相互作用的重要性,以减轻未来地震事件中的风险。地质学家和工程师经常研究coseismal数据,以改善建筑规范和灾难准备策略。通过分析建筑物如何响应coseismal力量,他们可以设计出更能抵御地震的结构。这种知识对城市规划至关重要,尤其是在易受地震活动影响的地区。例如,位于断层线附近的城市必须优先建设coseismal抗震基础设施,以保护其居民免受潜在灾害的影响。此外,对coseismal现象的研究不仅限于直接的物理影响。它还包括社会和经济影响。在重大地震之后,社区必须应对coseismal后果,包括流离失所、生计损失和心理创伤。理解这些多方面的影响对于制定全面的恢复计划至关重要,这些计划不仅解决结构的物理重建问题,还关注受影响个人的情感和社会恢复。总之,术语coseismal在地震学和灾害管理领域发挥着至关重要的作用。通过研究coseismal事件,科学家和工程师可以增强对地震及其对环境和社会影响的理解。这种知识对于创建更安全的社区和最小化未来地震活动的破坏性影响至关重要。随着我们对这些现象的理解不断深入,务必将这一知识融入我们的政策和实践中,以确保所有人的未来更加韧性。
