globoid

简明释义

英[ˈɡləʊbɔɪd]美[ˈɡloʊˌbɔɪd]

adj. 球状的

n. 球状体

英英释义

单词用法

同义词

反义词

例句

1.An exploratory discussion was carried out about relevant problems in the development of prototype of globoid CAM manipulator, and methods for solving these problems are presented.

对弧面凸轮机械手样机研制中的相关问题进行了探讨，给出了解决这些问题的方法。

2.Globoid indexing CAM mechanism is a kind of mechanism used widely in modern automatic machine and spatial high speed and high accuracy indexing mechanism of automatic production line.

弧面分度凸轮机构是一种广泛应用于现代自动机和自动生产线上的高速、高精度的空间分度机构。

3.The results show that there exist chunk graphite and more globoid re-crystal graphite in the solvent metal than that in the film.

结果表明，与包膜相比，溶媒合金内含有块状的未溶石墨和较多的球状再结晶石墨。

4.Globoid CAM indexing mechanism is used widely in modern automatic machines.

弧面凸轮分度机构广泛应用于现代自动机械。

5.Globoid indexing CAM mechanism is a kind of mechanism used widely in modern automatic machine and spatial high speed and high accuracy indexing mechanism of automatic production line.

弧面分度凸轮机构是一种广泛应用于现代自动机和自动生产线上的高速、高精度的空间分度机构。

6.It realizes the dynamic indexing precision and static indexing precision testing on dimensional globoid indexing CAM mechanism.

实现了对空间弧面分度凸轮机构的动分度精度检测和静分度精度的检测。

7.The model was designed to mimic the globoid 球状 structure of the planet.

该模型旨在模仿行星的globoid 球状 结构。

8.Astronomers often study globoid 球状 galaxies to understand their formation.

天文学家常常研究globoid 球状 星系以理解它们的形成。

9.The designer chose a globoid 球状 shape for the new building to create a modern look.

设计师选择了一个globoid 球状 形状来为新建筑创造现代感。

10.In geometry, a globoid 球状 figure can be represented by a sphere.

在几何学中，globoid 球状 形状可以用一个球体表示。

11.The scientist described the new particle as having a globoid 球状 shape.

科学家形容新粒子的形状为一个globoid 球状。

作文

In the realm of geometry, shapes play a crucial role in understanding the physical world around us. One fascinating shape that often captures our attention is the sphere. However, when we delve deeper into the world of three-dimensional figures, we encounter the term globoid, which refers to a shape that closely resembles a sphere but is slightly distorted. This distortion can occur in various ways, leading to different types of globoid forms. For instance, an ellipsoid is a type of globoid that is elongated along one or more axes, resulting in a shape that is similar to a squished or stretched sphere.The concept of globoid shapes extends beyond mere academic interest; it has practical applications in fields such as engineering, architecture, and even biology. For engineers, understanding globoid shapes is essential when designing objects that need to withstand pressure or stress. For example, the design of certain types of tanks or containers may require a globoid shape to ensure even distribution of stress across the surface, thereby enhancing durability and safety.In architecture, the use of globoid forms can lead to innovative designs that are not only aesthetically pleasing but also structurally sound. Buildings with globoid features can create unique spaces that challenge traditional architectural norms, allowing for more creative use of space and light. These designs often stand out in urban landscapes, drawing the eye and sparking curiosity among passersby.Moreover, in the field of biology, many organisms exhibit globoid shapes, particularly in their cellular structures. For instance, certain types of bacteria and viruses have globoid forms that allow them to efficiently navigate through their environments. Understanding these shapes can provide insights into how these organisms function and interact with their surroundings, which is crucial for advancements in medical science and biotechnology.The exploration of globoid shapes is not limited to scientific disciplines; it also finds its way into art and design. Artists often experiment with globoid forms to create sculptures that challenge viewers' perceptions of space and volume. By manipulating the characteristics of globoid shapes, artists can evoke emotions and provoke thought, making their work resonate on multiple levels.As we continue to explore the intricacies of globoid shapes, it becomes evident that they are more than just mathematical abstractions. They represent a bridge between the theoretical and the practical, influencing various aspects of our lives. Whether in nature, technology, or art, globoid shapes remind us of the beauty and complexity of the world we inhabit. Ultimately, understanding globoid forms allows us to appreciate the subtle nuances of design and structure, enriching our knowledge and experience in both everyday life and specialized fields. In conclusion, the study of globoid shapes offers valuable insights that extend far beyond the classroom, impacting numerous industries and inspiring creativity across disciplines.

在几何学的领域中，形状在理解我们周围的物理世界中起着至关重要的作用。一个引人注目的形状是球体。然而，当我们深入三维图形的世界时，我们遇到了术语globoid，它指的是一种与球体非常相似但略微扭曲的形状。这种扭曲可以以各种方式发生，导致不同类型的globoid形态。例如，椭球体是一种globoid，它在一个或多个轴上被拉长，形成一种类似于被压扁或拉伸的球体的形状。globoid形状的概念不仅限于学术兴趣；它在工程、建筑甚至生物学等领域具有实际应用。对于工程师来说，理解globoid形状在设计需要承受压力或应力的物体时至关重要。例如，某些类型的罐或容器的设计可能需要采用globoid形状，以确保应力在表面上的均匀分布，从而增强耐用性和安全性。在建筑学中，使用globoid形状可以产生既美观又结构合理的创新设计。具有globoid特征的建筑可以创造出独特的空间，挑战传统建筑规范，使空间和光线的使用更加富有创意。这些设计往往在城市景观中脱颖而出，吸引路人的目光，引发好奇。此外，在生物学领域，许多生物体表现出globoid形状，特别是在其细胞结构中。例如，某些类型的细菌和病毒具有globoid形状，使它们能够有效地在环境中导航。理解这些形状可以提供关于这些生物如何运作和与环境互动的洞察，这对于医学科学和生物技术的进步至关重要。对globoid形状的探索不仅限于科学学科；它也进入了艺术和设计领域。艺术家们常常实验globoid形状，以创造出挑战观众对空间和体积感知的雕塑。通过操控globoid形状的特征，艺术家可以唤起情感并激发思考，使他们的作品在多个层面上产生共鸣。随着我们继续探索globoid形状的复杂性，显而易见的是，它们不仅仅是数学抽象。它们代表了理论与实践之间的桥梁，影响着我们生活的各个方面。无论是在自然界、技术还是艺术中，globoid形状都提醒我们所居住世界的美丽和复杂性。最终，理解globoid形态使我们能够欣赏设计和结构的微妙差异，丰富我们在日常生活和专业领域的知识和体验。总之，对globoid形状的研究提供了超越课堂的宝贵见解，影响着众多行业，并激发跨学科的创造力。