globularity
简明释义
英[ɡloʊˈbjʊl.ə.ti]美[ɡloʊˈbjʊl.ə.ti]
n. 球状;球形
英英释义
The quality or state of being globular; the degree to which an object is spherical or round in shape. | 球形的特性或状态;一个物体呈现球形或圆形的程度。 |
单词用法
同义词
| 球形 | The sphericity of the planet affects its gravitational field. | 行星的球形性影响其引力场。 | |
| 圆度 | 大理石的圆度使它容易滚动。 | ||
| 圆形性 | In geometry, circularity is an important property of shapes. | 在几何学中,圆形性是形状的重要属性。 |
反义词
| 平坦 | 表面的平坦使得行走变得容易。 | ||
| 角度 | The angularity of the building's design gives it a modern look. | 建筑设计的角度使其看起来现代。 |
例句
1.The shape of pores was close to globularity when the coarsening time was prolonged.
粗化时间延长,孔隙形状更接近球形。
2.The graphite globularity quality of ductile iron with fracture toughness has been discussed.
研究石墨球化质量对球墨铸铁断裂韧性的影响。
3.The graphite globularity quality of ductile iron with fracture toughness has been discussed.
研究石墨球化质量对球墨铸铁断裂韧性的影响。
4.The globularity of the droplets in the spray can impact the efficiency of the application.
喷雾中液滴的球形度会影响应用的效率。
5.The scientists measured the globularity of the particles to determine their suitability for drug delivery.
科学家测量了颗粒的球形度以确定它们是否适合药物输送。
6.The globularity of the protein molecules affects their function in biological systems.
蛋白质分子的球形度影响它们在生物系统中的功能。
7.Researchers found that the globularity of nanoparticles enhances their stability in solutions.
研究人员发现,纳米颗粒的球形度增强了它们在溶液中的稳定性。
8.In geology, the globularity of sedimentary rocks can indicate their formation process.
在地质学中,沉积岩的球形度可以指示其形成过程。
作文
In the realm of science and mathematics, the concept of globularity is often discussed in relation to the shapes and forms of objects. Globularity refers to the quality of being spherical or having a rounded shape. This characteristic is significant in various fields, including biology, astronomy, and even engineering. Understanding globularity can help us appreciate the natural world and the structures we create. For instance, in biology, many microorganisms exhibit a high degree of globularity, which can influence their movement and interaction with their environment. The round shape allows for efficient locomotion in fluids, making these organisms more adaptable and resilient.In astronomy, the globularity of celestial bodies like planets and stars plays a critical role in their formation and stability. A planet's globularity affects its gravitational pull, which in turn influences its atmosphere and potential for supporting life. For example, Earth’s nearly perfect spherical shape contributes to its stable climate and diverse ecosystems. The study of globularity in celestial objects also helps astronomers understand the evolution of the universe and the forces that govern it.Moreover, in engineering and design, the principle of globularity is applied to create structures that are both aesthetically pleasing and functional. Architects often incorporate rounded shapes into their designs to improve aerodynamics and reduce wind resistance. The use of globularity in product design can enhance user experience by providing ergonomic shapes that fit comfortably in the hand.The importance of globularity extends beyond the physical sciences; it also finds relevance in art and culture. Artists have long recognized the beauty of spherical forms, utilizing globularity in sculptures and paintings to evoke a sense of harmony and balance. The circular shapes can symbolize unity and wholeness, resonating with viewers on an emotional level.In conclusion, the concept of globularity is multifaceted and permeates various disciplines. Whether in nature, space, engineering, or art, the rounded shape of objects influences their functionality and aesthetic appeal. By exploring the significance of globularity, we gain insights into the interconnectedness of different fields and the underlying principles that govern our world. Embracing the idea of globularity not only enhances our understanding of the physical universe but also enriches our cultural experiences, reminding us of the beauty inherent in simplicity and symmetry.
在科学和数学领域,globularity的概念常常与物体的形状和形式相关联。Globularity指的是球形或具有圆形的特性。这一特性在生物学、天文学甚至工程学等多个领域都具有重要意义。理解globularity可以帮助我们欣赏自然世界和我们创造的结构。例如,在生物学中,许多微生物表现出高度的globularity,这可能会影响它们的运动和与环境的互动。圆形的形状使得这些生物在流体中能够高效地移动,从而使它们更具适应性和韧性。在天文学中,像行星和恒星这样的天体的globularity在它们的形成和稳定性中发挥着关键作用。一个行星的globularity影响其引力,这反过来又影响其大气层和支持生命的潜力。例如,地球几乎完美的球形有助于其稳定的气候和多样的生态系统。对天体globularity的研究也帮助天文学家理解宇宙的演化及其支配力量。此外,在工程和设计中,globularity的原则被应用于创建既美观又实用的结构。建筑师常常将圆形融入他们的设计中,以改善空气动力学并减少风阻。在产品设计中使用globularity可以通过提供符合人体工程学的形状来增强用户体验。Globularity的重要性不仅限于物理科学;它在艺术和文化中也同样相关。艺术家们早已认识到球形形式的美,利用globularity在雕塑和绘画中唤起和谐和平衡的感觉。圆形的形状可以象征团结和完整,与观众在情感上产生共鸣。总之,globularity的概念是多方面的,渗透到不同的学科中。无论是在自然、空间、工程还是艺术中,物体的圆形形状影响着它们的功能性和美学吸引力。通过探索globularity的重要性,我们获得了对不同领域相互联系的深入了解,以及支配我们世界的基本原则。接受globularity的理念不仅增强了我们对物理宇宙的理解,也丰富了我们的文化体验,提醒我们简单和对称中固有的美。
