axial ridge

简明释义

洋脊轴;

英英释义

例句

1.In the study of vertebrate anatomy, the axial ridge (轴向脊) plays a crucial role in understanding spinal structure.

在脊椎动物解剖学研究中，轴向脊（轴向脊）在理解脊柱结构方面起着至关重要的作用。

2.The axial ridge (轴向脊) on the shell of the turtle helps in identifying its species.

龟壳上的轴向脊（轴向脊）有助于识别其物种。

3.The archaeologists discovered an ancient pottery shard with a pronounced axial ridge (轴向脊) that indicated its manufacturing technique.

考古学家发现了一块带有明显轴向脊（轴向脊）的古老陶器碎片，这表明了其制造工艺。

4.The new design of the bicycle frame incorporates an axial ridge (轴向脊) for enhanced aerodynamics.

新设计的自行车框架采用了轴向脊（轴向脊）以增强空气动力学性能。

5.During the geological survey, we noted the presence of an axial ridge (轴向脊) along the mountain range.

在地质调查过程中，我们注意到山脉沿线存在一个轴向脊（轴向脊）。

作文

The concept of the axial ridge is often overlooked in various fields, yet it plays a crucial role in understanding both natural and artificial structures. An axial ridge refers to a prominent line or elevation that runs along the length of an object, typically found in biological organisms, geological formations, and even in architectural designs. In biology, for instance, many organisms exhibit an axial ridge that serves as a central support structure, allowing for enhanced stability and strength. This is particularly evident in certain species of plants and animals where the axial ridge contributes to their overall morphology and functionality.In geology, the term axial ridge is frequently used to describe features found in mountain ranges or oceanic ridges. These ridges often represent the highest points in a range, formed by tectonic activities such as volcanic eruptions or the collision of tectonic plates. The presence of an axial ridge can significantly influence the surrounding landscape, affecting erosion patterns, water drainage, and even climate conditions. For example, the Himalayas possess an impressive axial ridge that not only defines the geographical boundaries of several countries but also impacts the monsoon weather patterns in the region.Moreover, architects and engineers also utilize the concept of the axial ridge in their designs. In buildings, an axial ridge might refer to the central beam or spine that supports the structure, ensuring that loads are evenly distributed across the framework. This principle can be observed in various architectural styles, where the axial ridge not only serves a functional purpose but also adds to the aesthetic appeal of the construction. For instance, in traditional Gothic cathedrals, the axial ridge can be seen in the pointed arches and ribbed vaults, creating a visually striking effect while providing necessary structural integrity.Understanding the significance of the axial ridge enables us to appreciate the interconnectedness of different disciplines. Whether in nature or human-made environments, the principles governing the formation and function of axial ridges reveal much about the underlying forces at play. As we explore further into the realms of biology, geology, and architecture, we begin to see that the axial ridge is more than just a physical feature; it is a testament to the complexity and beauty of design in the world around us.In conclusion, the axial ridge serves as an essential element across various domains. Its presence can be witnessed in the natural world, from the mountains that shape our landscapes to the organisms that thrive within them. In human creations, the axial ridge embodies the principles of engineering and aesthetics, reflecting our understanding of balance, strength, and beauty. By recognizing the importance of the axial ridge, we not only enhance our knowledge of these fields but also deepen our appreciation for the intricate designs that surround us, whether crafted by nature or by human hands.

“轴向脊”这个概念在各个领域常常被忽视，但它在理解自然和人工结构方面扮演着至关重要的角色。“轴向脊”指的是沿着物体长度延伸的显著线条或隆起，通常出现在生物有机体、地质构造，甚至建筑设计中。例如，在生物学中，许多生物表现出“轴向脊”，作为中心支撑结构，增强稳定性和强度。这在某些植物和动物的物种中尤为明显，其中“轴向脊”对它们的整体形态和功能起到了促进作用。在地质学中，“轴向脊”一词常用于描述山脉或海洋脊中的特征。这些脊通常代表一个范围内的最高点，由火山喷发或构造板块碰撞等构造活动形成。“轴向脊”的存在可以显著影响周围的地貌，影响侵蚀模式、水流和气候条件。例如，喜马拉雅山脉拥有令人印象深刻的“轴向脊”，不仅定义了几个国家的地理边界，还影响了该地区的季风天气模式。此外，建筑师和工程师在设计中也利用“轴向脊”的概念。在建筑物中，“轴向脊”可能指的是支持结构的中央梁或脊柱，确保负载均匀分布在框架上。这个原理可以在各种建筑风格中观察到，其中“轴向脊”不仅具有功能目的，还增加了建筑的美观。例如，在传统的哥特式大教堂中，“轴向脊”可以在尖拱和肋拱顶中看到，创造出视觉上引人注目的效果，同时提供必要的结构完整性。理解“轴向脊”的重要性使我们能够欣赏不同学科之间的相互联系。无论是在自然界还是人造环境中，支配“轴向脊”形成和功能的原则揭示了潜在力量的运作。随着我们进一步探索生物学、地质学和建筑学的领域，我们开始看到“轴向脊”不仅仅是一个物理特征；它是对我们周围世界设计复杂性和美丽的证明。总之，“轴向脊”作为多个领域的重要元素，其存在可以在自然界中看到，从塑造我们景观的山脉到在其中繁衍生息的生物。在人类创造中，“轴向脊”体现了工程和美学的原则，反映了我们对平衡、强度和美的理解。通过认识“轴向脊”的重要性，我们不仅增强了对这些领域的知识，而且加深了对自然或人类手工制作的复杂设计的欣赏。