emerged wedge

简明释义

出水楔形

英英释义

例句

1.In the context of risk management, the emerged wedge represents unforeseen challenges that may arise.

在风险管理的背景下，显现的楔形体代表可能出现的不可预见的挑战。

2.During the geological survey, the team noted an emerged wedge that indicated a shift in tectonic plates.

在地质勘测中，团队注意到一个显现的楔形体，这表明了构造板块的移动。

3.The artist's sculpture featured an emerged wedge that symbolized the conflict between nature and industry.

艺术家的雕塑中有一个显现的楔形体，象征着自然与工业之间的冲突。

4.In the design of the new bridge, engineers used an emerged wedge to enhance structural stability.

在新桥的设计中，工程师们使用了一个显现的楔形体来增强结构稳定性。

5.The emerged wedge in the software development process highlighted areas needing improvement.

软件开发过程中的显现的楔形体突出了需要改进的领域。

作文

In the realm of geology, the term emerged wedge refers to a specific geological formation that occurs when tectonic plates interact in a manner that causes one plate to be pushed up and over another. This phenomenon is often observed at convergent plate boundaries where two plates collide, leading to significant geological changes. Understanding the concept of the emerged wedge is crucial for geologists as it provides insights into the Earth's crust dynamics and the processes that shape our planet's surface.The formation of an emerged wedge typically begins with the subduction of one tectonic plate beneath another. As the denser oceanic plate sinks into the mantle, it creates a trench in the ocean floor. The lighter continental plate, on the other hand, may experience uplift due to the immense pressure exerted by the colliding plates. This uplift can lead to the creation of mountain ranges, volcanic activity, and other geological features associated with convergent boundaries.One of the most famous examples of an emerged wedge is the Himalayas, which were formed by the collision of the Indian Plate with the Eurasian Plate. This monumental event not only resulted in the rise of the highest peaks on Earth but also significantly altered the climate and ecology of the region. The ongoing process of plate tectonics continues to shape the landscape, demonstrating that the Earth is a dynamic system in constant flux.The study of emerged wedges is not limited to understanding mountain formation; it also has implications for natural disasters. The stress accumulated along fault lines in these geological formations can lead to earthquakes. For instance, regions located near the edges of an emerged wedge are often more susceptible to seismic activity due to the intense pressure and friction between the colliding plates. This understanding is vital for disaster preparedness and risk mitigation in areas prone to earthquakes.Furthermore, the concept of the emerged wedge extends beyond geology into other fields such as engineering and environmental science. Engineers must consider the stability of structures built on or near these geological formations. The potential for landslides, erosion, and other geological hazards necessitates careful planning and design to ensure safety and sustainability.In conclusion, the term emerged wedge encapsulates a fundamental aspect of geological science that highlights the dynamic nature of the Earth’s crust. From the majestic Himalayas to the risks of earthquakes, the implications of this geological feature are profound and far-reaching. As we continue to study and understand these formations, we gain valuable insights into the processes that have shaped our planet and the challenges we face in managing its resources and hazards. The emerged wedge serves as a reminder of the intricate balance of forces at play within the Earth, urging us to respect and protect our ever-changing environment.

在地质学领域，术语emerged wedge指的是一种特定的地质构造，当构造板块以某种方式相互作用时，导致一个板块被推到另一个板块之上。这种现象通常发生在两个板块碰撞的汇聚板块边界，导致显著的地质变化。理解emerged wedge的概念对地质学家至关重要，因为它提供了关于地球地壳动态及塑造我们星球表面的过程的洞察。emerged wedge的形成通常始于一个构造板块在另一个板块下方俯冲。当密度较大的海洋板块沉入地幔时，会在海底形成一个沟槽。另一方面，较轻的大陆板块可能由于碰撞板块施加的巨大压力而经历抬升。这种抬升可以导致山脉、火山活动和其他与汇聚边界相关的地质特征的形成。emerged wedge最著名的例子之一是喜马拉雅山脉，它是由印度板块与欧亚板块的碰撞形成的。这一重大事件不仅导致了地球上最高峰的出现，还显著改变了该地区的气候和生态。构造板块的持续运动继续塑造着地貌，证明地球是一个不断变化的动态系统。对emerged wedges的研究不仅限于了解山脉的形成；它还对自然灾害有影响。沿着这些地质构造的断层线积累的压力可能导致地震。例如，位于emerged wedge边缘附近的地区往往更容易发生地震活动，因为碰撞板块之间的强烈压力和摩擦。这种理解对于自然灾害的准备和风险减轻在地震多发地区至关重要。此外，emerged wedge的概念超越了地质学，延伸到工程和环境科学等其他领域。工程师必须考虑在这些地质构造上或附近建造的结构的稳定性。滑坡、侵蚀和其他地质危害的潜在风险需要仔细规划和设计，以确保安全和可持续性。总之，术语emerged wedge概括了地质科学的一个基本方面，突显了地球地壳的动态特性。从雄伟的喜马拉雅山脉到地震的风险，这一地质特征的影响深远且广泛。随着我们继续研究和理解这些构造，我们获得了对塑造我们星球的过程以及管理其资源和危害所面临挑战的宝贵见解。emerged wedge提醒我们，地球内部存在着复杂的力量平衡，促使我们尊重和保护我们不断变化的环境。