tenuity
简明释义
n. 稀薄;贫乏;纤细;微弱
复 数 t e n u i t i e s
英英释义
细或纤细的特质或状态。 | |
虚弱或不实质的状态。 |
单词用法
论点的脆弱性 | |
大气的稀薄性 | |
证据的薄弱性 | |
设计中的纤细性 |
同义词
| 稀薄 | 这种织物的韧性因其稀薄而增强。 | ||
| 纤细 | 她的纤细常常受到同龄人的赞赏。 | ||
| 细致 | 这种材料的细致感使其具有奢华的触感。 |
反义词
| 厚度 | 纸张的厚度影响其耐用性。 | ||
| 密度 | 较高密度的材料通常用于建筑。 |
例句
1.Coexistence of the rational and elegant prose has brought on interflowing of the two style and therefore facilitated prosperity and tenuity in this field.
理性散文与通俗散文并存,形成了雅俗合流的创作格局,共同促成了当代散文创作的繁荣与苍白。
2.Coexistence of the rational and elegant prose has brought on interflowing of the two style and therefore facilitated prosperity and tenuity in this field.
理性散文与通俗散文并存,形成了雅俗合流的创作格局,共同促成了当代散文创作的繁荣与苍白。
3.The charcoal filling has tenuity effect in the improvement of water quality were only by its absorption and interception function.
3仅靠木炭填料吸附、截留作用去除水体污染物能力有限。
4.The scientist noted the tenuity of the gas, which allowed it to disperse quickly in the atmosphere.
科学家注意到气体的稀薄性,这使得它能够迅速在大气中扩散。
5.The artist used a tenuity of lines to create a delicate and intricate design.
艺术家使用了细腻的线条来创造一个精致复杂的设计。
6.The tenuity of the fabric made it ideal for summer clothing.
这种面料的轻薄性使其成为夏季服装的理想选择。
7.In his speech, he emphasized the tenuity of the argument, suggesting it lacked sufficient evidence.
在他的演讲中,他强调了论点的脆弱性,暗示它缺乏足够的证据。
8.Her explanation was marked by a certain tenuity that left the audience confused.
她的解释具有一种模糊性,让观众感到困惑。
作文
In the vast realm of scientific exploration, the concept of tenuity (细微性) plays a crucial role in understanding the physical world around us. The term refers to the state of being thin or slender, often used to describe the delicate nature of certain materials or phenomena. This quality of tenuity is particularly significant in fields such as physics, biology, and materials science, where the properties of substances can greatly influence their behavior and interactions.For instance, consider the study of gases. The tenuity of gas molecules allows them to move freely and fill the space available to them. This property is essential in understanding concepts like pressure and temperature. As scientists delve deeper into the intricacies of gas behavior, they must account for the tenuity of individual molecules, which can lead to insights about how gases react under various conditions.Similarly, in the field of biology, the tenuity of cellular structures is vital for life processes. For example, the membranes that surround cells are incredibly thin, yet they perform the critical function of regulating what enters and exits the cell. This tenuity enables cells to maintain homeostasis while allowing necessary nutrients and waste products to pass through. Without this delicate balance, life as we know it would not be possible.Moreover, the tenuity of certain materials can have profound implications in engineering and technology. Take, for example, the development of lightweight materials for aerospace applications. Engineers strive to create components that possess the necessary strength while maintaining a low weight, which often requires a careful balance of tenuity and durability. Innovations in material science, such as carbon fiber and graphene, showcase how understanding the tenuity of materials can lead to breakthroughs that revolutionize entire industries.The concept of tenuity also extends beyond the physical sciences into the realm of art and design. Artists often play with the tenuity of lines and shapes to create visually striking compositions. The use of thin lines can evoke feelings of fragility or elegance, while thicker lines may convey strength and stability. Designers leverage this principle to craft products that are both aesthetically pleasing and functional, demonstrating how the tenuity of form can impact user experience.In conclusion, the notion of tenuity is woven into the fabric of various disciplines, influencing our understanding of the universe and our ability to innovate. Whether it is the delicate balance of gases, the fragile nature of cellular membranes, the engineering of lightweight materials, or the artistic manipulation of lines, tenuity serves as a reminder of the beauty and complexity inherent in the world around us. By appreciating the significance of tenuity, we can foster a deeper understanding of both the natural and man-made environments, ultimately enriching our lives and advancing our knowledge.
在科学探索的广阔领域中,tenuity(细微性)的概念在理解我们周围物理世界方面发挥着至关重要的作用。这个术语指的是细薄或纤细的状态,常用于描述某些材料或现象的微妙性质。这种tenuity的特性在物理学、生物学和材料科学等领域尤为重要,因为物质的性质会极大影响其行为和相互作用。例如,考虑气体的研究。气体分子的tenuity使它们能够自由移动并填充可用空间。这一特性对于理解压力和温度等概念至关重要。当科学家深入研究气体行为的复杂性时,他们必须考虑单个分子的tenuity,这可能导致对气体在各种条件下反应的洞察。同样,在生物学领域,细胞结构的tenuity对生命过程至关重要。例如,包围细胞的膜非常薄,但它们执行调节细胞内外物质进出的关键功能。这种tenuity使细胞能够维持稳态,同时允许必要的营养物质和废物通过。如果没有这种微妙的平衡,生命就不可能存在。此外,某些材料的tenuity在工程和技术中也可能具有深远的影响。以航空航天应用中的轻量化材料开发为例,工程师努力创造既具备必要强度又保持低重量的组件,这通常需要在tenuity和耐久性之间进行仔细平衡。材料科学的创新,如碳纤维和石墨烯,展示了理解tenuity如何导致革命性突破,从而改变整个行业。tenuity的概念还延伸到艺术和设计领域。艺术家经常利用线条和形状的tenuity来创造视觉上引人注目的作品。细线的使用可以唤起脆弱或优雅的感觉,而较粗的线条可能传达力量和稳定性。设计师利用这一原则来打造既美观又实用的产品,展示了形式的tenuity如何影响用户体验。总之,tenuity的概念渗透在多个学科中,影响着我们对宇宙的理解以及我们的创新能力。无论是气体的微妙平衡、细胞膜的脆弱性质、轻量化材料的工程,还是艺术上对线条的操控,tenuity都提醒我们周围世界固有的美丽与复杂性。通过欣赏tenuity的重要性,我们可以培养对自然和人造环境更深刻的理解,最终丰富我们的生活并推动我们的知识进步。
