eruptible

简明释义

英[ɪˈrʌptəbl]美[ɪˈrʌptəbl]

adj. 爆发的；喷发的

英英释义

单词用法

同义词

反义词

例句

1.It takes tens of thousands of years for the crust to generate enough eruptible magma, but once formed, these unstable magma bodies only last for centuries to a few millennia.

地壳聚集足够喷发的岩浆需要数万年的时间，但是一旦准备完毕，这些不稳定的岩浆体就只会在地壳内存在几百年到几千年的时间。

2.It takes tens of thousands of years for the crust to generate enough eruptible magma, but once formed, these unstable magma bodies only last for centuries to a few millennia.

地壳聚集足够喷发的岩浆需要数万年的时间，但是一旦准备完毕，这些不稳定的岩浆体就只会在地壳内存在几百年到几千年的时间。

3.These ameliorations can deduce or remove the worst sequel of risk's eruptible.

这些方面的改进可以减少或消除风险爆发的恶劣后果。

4.The volcano is considered eruptible due to its history of explosive activity.

由于其爆炸活动的历史，这座火山被认为是易爆发的。

5.Scientists are studying the eruptible nature of this geological formation.

科学家们正在研究这个地质构造的易爆发性。

6.Certain regions are more eruptible than others, making them hazardous for habitation.

某些地区比其他地区更易爆发，使其居住风险较高。

7.The eruptible characteristics of this mountain range have been documented extensively.

这座山脉的易爆发特征已被广泛记录。

8.Geologists classify this site as eruptible, indicating a potential for future eruptions.

地质学家将此地点分类为易爆发的，表明未来可能发生喷发。

作文

The world is full of natural wonders, and among them are volcanoes, which are fascinating yet dangerous geological formations. One of the most interesting aspects of volcanoes is their ability to erupt. This brings us to the term eruptible, which refers to the capacity of a volcano to erupt or become active. Understanding what makes a volcano eruptible can help us appreciate the power of nature and the science behind these magnificent structures. Volcanoes are formed by the movement of tectonic plates beneath the Earth's surface. When these plates shift, they can create pressure that builds up over time. This pressure often leads to the formation of magma, which is molten rock that resides beneath the Earth’s crust. When the pressure becomes too great, the magma finds its way to the surface, resulting in a volcanic eruption. Thus, a volcano that has the potential to erupt is considered eruptible. There are several factors that contribute to a volcano's eruptible status. One of the primary factors is the composition of the magma. Different types of magma have varying levels of viscosity, which affects how easily gas can escape. For instance, basaltic magma is low in viscosity and allows gases to escape easily, leading to less explosive eruptions. On the other hand, rhyolitic magma is highly viscous, trapping gases and resulting in more violent eruptions. Therefore, the type of magma present plays a crucial role in determining whether a volcano is eruptible and how it will behave when it does erupt. Another important factor is the geological history of the volcano. A volcano that has erupted frequently in the past is more likely to be eruptible in the future. Scientists study the eruption patterns of volcanoes to assess their activity levels. For example, Mount St. Helens in Washington State was dormant for over a century before it erupted in 1980. This event reminded us that even seemingly inactive volcanoes can become eruptible again. Monitoring volcanic activity is essential for predicting eruptions and ensuring public safety. Scientists use various tools and technologies to track changes in a volcano's behavior. Seismographs measure seismic activity, while gas emissions and ground deformation provide additional data about a volcano's state. By analyzing this information, researchers can determine if a volcano is becoming eruptible and issue warnings to nearby communities. In conclusion, the concept of eruptible volcanoes is a critical aspect of geology and environmental science. Understanding the factors that contribute to a volcano's potential to erupt helps us better prepare for natural disasters. As we continue to study these magnificent formations, we gain valuable insights into the Earth's processes and the forces that shape our planet. The next time you hear about a volcano, remember the term eruptible and consider the incredible power and beauty of these natural wonders, as well as the importance of respecting their potential for destruction.

世界充满了自然奇观，其中火山是迷人而又危险的地质构造。火山最有趣的方面之一是它们的喷发能力。这使我们想到了“eruptible”这个术语，它指的是火山喷发或变得活跃的能力。了解什么使火山具有eruptible特性，可以帮助我们欣赏自然的力量以及这些宏伟结构背后的科学。 火山是由地球表面下的板块运动形成的。当这些板块移动时，可能会产生压力，随着时间的推移积累起来。这种压力通常导致岩浆的形成，岩浆是位于地球地壳下的熔融岩石。当压力变得过大时，岩浆就会找到通往地表的路径，从而导致火山喷发。因此，能够喷发的火山被认为是eruptible。 影响火山eruptible状态的因素有几个。主要因素之一是岩浆的成分。不同类型的岩浆具有不同的粘度，这影响气体的逸出程度。例如，玄武岩岩浆粘度低，允许气体轻易逸出，导致喷发较不剧烈。另一方面，流纹岩岩浆粘度高，困住气体，导致更猛烈的喷发。因此，存在的岩浆类型在决定火山是否eruptible及其喷发时的行为方面起着至关重要的作用。 另一个重要因素是火山的地质历史。过去频繁喷发的火山更可能在未来成为eruptible。科学家研究火山的喷发模式，以评估其活动水平。例如，华盛顿州的圣海伦斯山在1980年喷发之前沉寂了一个多世纪。这一事件提醒我们，即使是看似不活跃的火山也可能再次变得eruptible。 监测火山活动对于预测喷发和确保公众安全至关重要。科学家使用各种工具和技术来跟踪火山行为的变化。地震仪测量地震活动，而气体排放和地面变形提供有关火山状态的额外数据。通过分析这些信息，研究人员可以确定火山是否正在变得eruptible，并向附近社区发布警告。 总之，eruptible火山的概念是地质学和环境科学中的一个关键方面。理解影响火山喷发潜力的因素有助于我们更好地为自然灾害做好准备。随着我们继续研究这些宏伟的构造，我们获得了关于地球过程和塑造我们星球的力量的宝贵见解。下次你听到有关火山的消息时，请记住eruptible这个术语，并考虑这些自然奇观的惊人力量和美丽，以及尊重它们潜在破坏力的重要性。