isoseismal

简明释义

英[/ˌaɪsoʊˈsaɪzməl/]美[/ˌaɪsoʊˈsaɪzməl/]

等震的

等震线的

等震线

英英释义

单词用法

同义词

反义词

例句

1.In this paper, a method is proposed such that the strike, dip, dipping direction and fracture length of a fault plane can be determined using of isoseismal lines.

本文提出了利用等震线测定地震断层面的走向、倾向、倾角和破裂长度等震源参数的宏观方法。

2.Earthquake isoseismal is usually determined based on the macroscopic earthquake affection and damages observed in the field.

地震烈度包络线通常用地面调查宏观地震影响和破坏现象来划分。

3.The first isoseismal lines were drawn by Liu Jichen of the earthquake of Anhui, in 1917 (Liu Jichen, 1917).

刘季辰对1917年安徽地震第一次绘制出了等震线图(刘季辰，1917)。

4.In this paper, a method is proposed such that the strike, dip, dipping direction and fracture length of a fault plane can be determined using of isoseismal lines.

本文提出了利用等震线测定地震断层面的走向、倾向、倾角和破裂长度等震源参数的宏观方法。

5.The isoseismal maps are valuable complements to the instrumental records.

线图是仪器记录有价值的补充资料。

6.The formula of seismic intensity attenuation fitted by using 37 isoseismal lines of 14 earthquakes in Shandong and near area.

本文利用山东省及其邻区14个地震的37条等震线拟合山东地区地震烈度衰减公式。

7.A method is presented for use in establishing probability model of seismic intensity attenuation in regions with abundant data of isoseismal maps.

本文在考虑地震烈度评定和预测的不确定性的基础上，提出建立烈度衰减概率模型的方法。

8.What are isoseismal maps?

什么是等震线图？

9.The isoseismal map showed that the strongest tremors were felt in the coastal areas.

这张等震线地图显示，沿海地区感受到的震动最强烈。

10.The isoseismal lines on the diagram indicated a significant drop in intensity away from the epicenter.

图表上的等震线显示，远离震中后强度显著下降。

11.The geologists created an isoseismal map to illustrate the intensity of the earthquake across different regions.

地质学家制作了一张等震线地图，以展示不同地区地震的强度。

12.By analyzing the isoseismal lines, researchers can determine the epicenter of an earthquake more accurately.

通过分析等震线，研究人员可以更准确地确定地震的震中。

13.Emergency services used the isoseismal data to prioritize their response efforts after the quake.

紧急服务部门利用等震线数据来优先处理地震后的应对工作。

作文

The study of earthquakes is a critical field in geosciences, as it helps us understand the dynamics of our planet and the risks associated with seismic activities. One of the key concepts in this area is the term isoseismal, which refers to lines on a map that connect points of equal intensity of shaking during an earthquake. Understanding isoseismal maps is essential for assessing the impact of seismic events on different regions. When an earthquake occurs, the level of shaking can vary significantly from one location to another, depending on various factors such as distance from the epicenter, geological conditions, and local building practices. These variations can be effectively represented through isoseismal lines, allowing scientists and engineers to visualize and analyze the effects of the earthquake.In practical applications, isoseismal maps play a crucial role in disaster preparedness and response. By studying past earthquakes and their isoseismal patterns, urban planners and emergency responders can identify areas that are more vulnerable to severe shaking. This information is invaluable in designing buildings and infrastructure that can withstand seismic forces. For instance, in regions where isoseismal lines indicate high levels of shaking, stricter building codes may be enforced to ensure structures are resilient against future quakes.Moreover, isoseismal maps assist in educating the public about earthquake risks. By providing visual representations of how shaking intensity varies across different locations, these maps help communities understand their vulnerability and the importance of preparedness. Schools and local governments can use isoseismal data to develop educational programs and drills that teach people how to respond during an earthquake, ultimately saving lives and reducing injuries.In recent years, advancements in technology have enhanced our ability to create accurate isoseismal maps. With the integration of real-time data from seismic sensors and sophisticated modeling techniques, scientists can produce detailed maps shortly after an earthquake occurs. This immediacy allows for quicker assessments of damage and facilitates timely responses from emergency services. As we continue to improve our understanding of seismic activity, the role of isoseismal mapping remains vital in mitigating the impacts of earthquakes.In conclusion, the term isoseismal encapsulates a fundamental aspect of earthquake science. By connecting points of equal shaking intensity, isoseismal lines provide insights into the effects of seismic events on various regions. Their significance extends beyond academic study; they are instrumental in disaster preparedness, public education, and emergency response planning. As we advance our technological capabilities, the creation and utilization of isoseismal maps will undoubtedly play a pivotal role in enhancing our resilience against earthquakes. Understanding isoseismal concepts not only informs scientific inquiry but also empowers communities to better prepare for and respond to the challenges posed by seismic hazards.

地震研究是地球科学中的一个关键领域，因为它帮助我们理解地球的动态及与地震活动相关的风险。在这个领域中，一个关键概念是术语isoseismal，它指的是在地图上连接地震期间震动强度相等点的线。理解isoseismal地图对于评估地震事件对不同地区的影响至关重要。当地震发生时，震动的强度可能因距离震中、地质条件和当地建筑实践等各种因素而显著不同。这些变化可以通过isoseismal线有效表示，使科学家和工程师能够可视化和分析地震的影响。在实际应用中，isoseismal地图在灾难准备和响应中发挥着至关重要的作用。通过研究过去的地震及其isoseismal模式，城市规划者和应急响应人员可以识别出更容易受到严重震动影响的区域。这些信息在设计能够承受地震力的建筑和基础设施时极为宝贵。例如，在isoseismal线指示高震动水平的地区，可能会实施更严格的建筑规范，以确保结构能够抵御未来的地震。此外，isoseismal地图有助于教育公众关于地震风险。通过提供震动强度在不同地点变化的可视化表示，这些地图帮助社区理解其脆弱性以及准备工作的必要性。学校和地方政府可以利用isoseismal数据开发教育项目和演练，教导人们在地震期间如何应对，从而最终拯救生命并减少伤害。近年来，技术的进步提高了我们创建准确的isoseismal地图的能力。通过整合来自地震传感器的实时数据和复杂的建模技术，科学家可以在地震发生后不久生成详细的地图。这种及时性使得对损害的快速评估成为可能，并促进了应急服务的及时响应。随着我们继续改善对地震活动的理解，isoseismal制图的作用在减轻地震影响方面仍然至关重要。总之，术语isoseismal概括了地震科学的一个基本方面。通过连接震动强度相等的点，isoseismal线提供了对地震事件对各个地区影响的洞察。它们的重要性超越了学术研究；它们在灾难准备、公众教育和应急响应规划中发挥着重要作用。随着我们技术能力的进步，创建和利用isoseismal地图无疑将在增强我们抵御地震的韧性方面发挥关键作用。理解isoseismal概念不仅为科学探究提供信息，还赋予社区更好地准备和应对地震危害所带来的挑战的能力。