annularly

简明释义

英[ˈæn.jʊ.lər.li]美[ˈæn.jə.lɚ.li]

adv. 环状地

英英释义

单词用法

同义词

反义词

例句

1.The landscape disposition treats Central Square as the core, and develops annularly along "Path of Health". Two landscape axises are emitted through the entire greenbelt of this district.

景观布置以中心广场为核心，沿“健康步道”呈环形展开，辐射两条景观轴，贯穿整个小区绿地。

2.Dimples diffuse annularly on the surface of water. The shadows of leaves and flowers with the lipper undulate, ring upon ring.

涟漪在平静的水面上一圈圈扩散开去，投在水面上荷花和荷叶的影子这时此起彼伏，层层叠叠。

3.The landscape disposition treats Central Square as the core, and develops annularly along "Path of Health". Two landscape axises are emitted through the entire greenbelt of this district.

景观布置以中心广场为核心，沿“健康步道”呈环形展开，辐射两条景观轴，贯穿整个小区绿地。

4.In the experiment, the particles were distributed annularly 环形地 around the center of the chamber.

在实验中，粒子环形地分布在腔体的中心周围。

5.The garden was designed with paths that wound annularly 环形地 around a central fountain.

花园的设计是以小径环形地围绕中央喷泉蜿蜒而行。

6.The eclipse occurred when the moon passed annularly 环形地 in front of the sun.

日食发生在月亮环形地经过太阳前面时。

7.The rings of Saturn are arranged annularly 环形地 around the planet.

土星的环呈环形地围绕着行星排列。

8.The structure of the galaxy is often visualized as being annularly 环形地 layered.

银河系的结构通常被想象成环形地分层。

作文

In the study of celestial mechanics, the concept of orbits plays a crucial role in understanding how planets and other celestial bodies move in space. One fascinating aspect of these orbits is when they are described as being arranged annularly, which refers to a circular or ring-like formation. This term derives from the word 'annulus', meaning a ring or ring-shaped object. When we say that celestial bodies are positioned annularly, we imply that they follow a path that resembles a circle, often around a central point, much like the rings of Saturn that orbit the planet in a stunning display of cosmic beauty.The importance of studying annularly arranged orbits can be seen in various astronomical phenomena, including the gravitational interactions between different celestial bodies. For instance, when moons or satellites orbit a planet annularly, their paths can affect the planet's rotation and even its climate over long periods. Understanding these dynamics allows scientists to predict changes in the environment and prepare for potential impacts on Earth.Moreover, the concept of annularly arranged orbits is not limited to natural celestial bodies. In recent years, space agencies have been exploring the possibility of placing artificial satellites in annularly structured formations to enhance communication and data collection. Such arrangements can improve coverage and efficiency, allowing for better connectivity and information flow across vast distances. The development of these technologies showcases the practical applications of understanding annularly structured systems in both natural and artificial contexts.In addition to astronomy and technology, the idea of annularly arranged systems can also be found in various fields such as biology and engineering. For example, certain plant structures, like the growth rings of trees, can be analyzed in an annularly fashion to determine the age and health of the tree. Similarly, in engineering, components designed to fit together annularly can optimize performance and stability in machinery and vehicles.To conclude, the term annularly encapsulates a rich and diverse range of applications across multiple disciplines. From the majestic movements of celestial bodies in our universe to the intricate designs of human-made technologies, the concept of annularly arranged systems provides a framework for understanding the complexities of both nature and innovation. As we continue to explore and learn about the world around us, the significance of annularly structured phenomena will undoubtedly remain a vital area of study, inspiring future generations to look up at the stars and seek answers to the mysteries of our universe.

在天体力学的研究中，轨道的概念在理解行星和其他天体在空间中的运动方面起着至关重要的作用。这些轨道的一个迷人方面是，当它们被描述为以环状排列时，这指的是一种圆形或环状的形成。这个术语源于“环”的词，意为环或环形物体。当我们说天体以环状排列时，我们暗示它们遵循一种类似于圆形的路径，通常围绕一个中心点，就像土星的环那样，环绕着行星，在宇宙的壮丽景观中展示。研究以环状排列的轨道的重要性可以在各种天文现象中看到，包括不同天体之间的引力相互作用。例如，当月球或卫星以环状方式围绕行星轨道时，它们的路径可能会影响行星的自转，甚至在长时间内影响气候。理解这些动态使科学家能够预测环境变化，并为潜在的影响做好准备。此外，环状排列的概念不仅限于自然天体。近年来，太空机构一直在探索将人造卫星放置在环状结构阵列中的可能性，以增强通信和数据收集。这种排列可以提高覆盖率和效率，使得在广阔的距离上更好地连接和信息流动。这些技术的发展展示了理解自然和人造背景下的环状结构系统的实际应用。除了天文学和技术，环状排列的系统的想法还可以在生物学和工程等多个领域中找到。例如，某些植物结构，如树木的生长年轮，可以以环状的方式进行分析，以确定树木的年龄和健康状况。同样，在工程中，设计为以环状方式结合的组件可以优化机械和车辆的性能和稳定性。总之，术语环状概括了跨多个学科的丰富多样的应用。从我们宇宙中天体的壮丽运动到人造技术的复杂设计，环状排列系统的概念提供了理解自然与创新复杂性的框架。随着我们继续探索和学习周围的世界，环状结构现象的重要性无疑将仍然是一个重要的研究领域，激励未来几代人仰望星空，寻求宇宙奥秘的答案。