plessimeter
简明释义
英[ˈplesɪˌmiːtə(r)]美[ˈplesɪˌmiːtər]
n. 叩诊板
英英释义
单词用法
使用音量计来测量叩诊声。 | |
医生在检查过程中使用了音量计。 | |
数字音量计 | |
手动音量计 |
同义词
| 地震仪 | The seismometer is used to detect and record the intensity of seismic waves. | 地震仪用于检测和记录地震波的强度。 | |
| 地震记录仪 | Seismographs provide valuable data for understanding earthquake patterns. | 地震记录仪提供了理解地震模式的宝贵数据。 |
反义词
| 振幅 | 声波的振幅显著增加。 | ||
| 夸大 | 他的故事常常充满了夸大。 |
例句
1.Using a plessimeter can help detect structural weaknesses before they become serious problems.
使用测振仪可以帮助检测结构弱点,以防它们变成严重问题。
2.The engineer used a plessimeter to measure the vibrations in the bridge structure.
工程师使用测振仪来测量桥梁结构中的振动。
3.The plessimeter readings indicated that the machinery was operating within safe limits.
测得的测振仪读数表明机器在安全范围内运行。
4.In the lab, the plessimeter was essential for analyzing the impact of sound waves on different materials.
在实验室中,测振仪对于分析声波对不同材料的影响至关重要。
5.The construction team relied on a plessimeter to ensure the stability of the foundation during excavation.
施工团队依靠测振仪确保挖掘过程中基础的稳定性。
作文
In the field of seismology, understanding the tools and instruments used to measure seismic waves is crucial for both research and practical applications. One such instrument is the plessimeter, which plays a significant role in the study of earthquakes and their effects on structures. A plessimeter is essentially an instrument that measures the amplitude of vibrations in the ground caused by seismic activity. By capturing these vibrations, scientists can analyze the intensity and duration of an earthquake, which is vital for assessing potential damage and formulating safety measures. The operation of a plessimeter relies on its ability to detect even the slightest movements in the earth's crust. When an earthquake occurs, seismic waves travel through the ground, causing it to shake. The plessimeter is designed to respond to these movements, translating them into measurable data that can be recorded and analyzed. This information is invaluable for understanding the dynamics of earthquakes and improving building designs to withstand such natural disasters. Historically, the development of the plessimeter has evolved alongside advancements in technology. Early versions of this instrument were rudimentary and often relied on mechanical components to gauge vibrations. However, modern plessimeters utilize sophisticated electronic sensors that provide more accurate and real-time data. These advancements have greatly enhanced our ability to monitor seismic activity, allowing researchers to create detailed maps of earthquake-prone areas and develop better predictive models. Moreover, the data collected from plessimeters is not only useful for scientists but also for emergency response teams. In the aftermath of an earthquake, quick access to reliable information about the event's magnitude and impact can significantly aid in disaster response efforts. For instance, knowing how strong the seismic waves were and how long they lasted can help authorities determine which areas are most affected and where to direct resources first. In conclusion, the plessimeter is a vital instrument in the field of seismology that contributes significantly to our understanding of earthquakes. Its ability to measure ground vibrations allows scientists to analyze seismic events, improve building designs, and enhance emergency response strategies. As technology continues to advance, the plessimeter will undoubtedly play an increasingly important role in safeguarding communities against the devastating effects of earthquakes. Understanding and utilizing this instrument effectively can lead to better preparedness and ultimately save lives during seismic events.
在地震学领域,理解和掌握用于测量地震波的工具和仪器对研究和实际应用至关重要。其中一种仪器是plessimeter,它在研究地震及其对结构影响方面发挥着重要作用。plessimeter基本上是一种测量地面因地震活动而产生的振动幅度的仪器。通过捕捉这些振动,科学家可以分析地震的强度和持续时间,这对于评估潜在损害和制定安全措施至关重要。plessimeter的操作依赖于其检测地壳微小运动的能力。当发生地震时,地震波通过地面传播,导致地面震动。plessimeter被设计为对这些运动作出反应,将其转化为可测量的数据,以便记录和分析。这些信息对于理解地震的动态以及改善建筑设计以抵御自然灾害至关重要。历史上,plessimeter的发展与技术进步相伴随。早期版本的这种仪器比较简单,通常依赖机械部件来测量振动。然而,现代plessimeter利用复杂的电子传感器,提供更准确和实时的数据。这些进步大大增强了我们监测地震活动的能力,使研究人员能够创建详细的地震易发地区地图,并开发更好的预测模型。此外,来自plessimeter收集的数据不仅对科学家有用,对应急响应团队也非常重要。在地震发生后,迅速获得关于事件强度和影响的可靠信息可以显著帮助灾后响应工作。例如,了解地震波的强度和持续时间可以帮助当局确定哪些地区受影响最严重,并优先分配资源。总之,plessimeter是地震学领域中一项重要的仪器,对我们理解地震具有重要贡献。它测量地面振动的能力使科学家能够分析地震事件、改善建筑设计并增强应急响应策略。随着技术的不断进步,plessimeter无疑将在保护社区免受地震灾害的破坏性影响方面发挥越来越重要的作用。有效理解和利用这一仪器可以提高准备工作,最终在地震事件中拯救生命。
