diffusively
简明释义
英[dɪˈfjuːsɪvli]美[dɪˈfjuːsɪvli]
扩散地
散布性地
散漫地(diffusive 的副词形式)
英英释义
以一种广泛传播或分散的方式。 |
单词用法
扩散地传播 | |
扩散地分布 | |
热量扩散 | |
光线扩散 |
同义词
| 分散地 | 气体在空气中以扩散的方式弥散。 | ||
| 扩散地 | 香气在房间中分散开来。 | ||
| 广泛地 | 信息在团队成员之间广泛传播。 |
反义词
| 集中地 | The solution was applied concentratively to the affected area. | 溶液被集中地应用于受影响区域。 | |
| 局部地 | 热量是局部分布的,而不是扩散的。 |
例句
1.The commercial available industrial CO2 lasers are three types: transverse flow, fast Axial flow and diffusively cooled.
常用的工业二氧化碳激光器,主要为横流、纵流和扩散冷却三种。
2.The commercial available industrial CO2 lasers are three types: transverse flow, fast Axial flow and diffusively cooled.
常用的工业二氧化碳激光器,主要为横流、纵流和扩散冷却三种。
3.The light from the lamp illuminated the room diffusively, reducing harsh shadows.
灯光弥散地照亮了房间,减少了刺眼的阴影。
4.The scent of the flowers spread diffusively throughout the garden, creating a pleasant atmosphere.
花香在花园中弥散地传播,营造出宜人的氛围。
5.In the experiment, the dye was added diffusively to observe how it spread in the liquid.
在实验中,染料以扩散的方式加入,以观察它在液体中的传播。
6.Heat is transferred diffusively in gases, making it harder to control temperatures.
在气体中,热量以扩散的方式传递,使温度控制变得更加困难。
7.The artist painted the colors diffusively to create a soft and blended effect.
艺术家将颜色弥散地涂抹,以创造柔和而融合的效果。
作文
In the realm of science, particularly in physics and chemistry, the concept of diffusion is crucial for understanding how substances interact and spread within different environments. The process of diffusion can be described as the movement of particles from an area of higher concentration to an area of lower concentration, resulting in a more uniform distribution over time. This phenomenon occurs not only in gases and liquids but also in solids, where particles move through the lattice structure. When we consider the term diffusively (扩散地), it refers to the manner in which these particles spread out or disperse throughout a medium.For instance, when a drop of ink is placed in a glass of water, the ink molecules begin to move diffusively (扩散地) throughout the water, gradually leading to a homogeneous mixture. This simple experiment illustrates the fundamental principles of diffusion, showcasing how substances can intermingle and create new solutions. The rate at which this diffusion occurs depends on several factors, including temperature, concentration gradients, and the nature of the substances involved.In biological systems, diffusion plays a vital role in various processes essential for life. For example, the exchange of oxygen and carbon dioxide in the lungs occurs diffusively (扩散地) across the alveolar membrane. Oxygen, which is present in higher concentrations in the alveoli than in the blood, diffuses into the bloodstream, while carbon dioxide moves in the opposite direction. This critical exchange ensures that our bodies receive the oxygen needed for cellular respiration while removing waste gases efficiently.Moreover, diffusion is not limited to gases and liquids; it also occurs in solid materials. For example, when a metal is heated, atoms can move diffusively (扩散地) through the lattice structure of the metal, allowing for processes such as alloying and phase changes. Understanding how atoms migrate diffusively (扩散地) within solids is essential for materials science, as it affects the properties and performance of various materials used in engineering and technology.In environmental science, diffusion can help explain how pollutants disperse in air and water. When a chemical spill occurs, the substances involved will spread diffusively (扩散地) through the surrounding environment, affecting ecosystems and human health. By studying the patterns of diffusion, scientists can develop strategies to mitigate the impact of such spills and protect natural resources.In conclusion, the concept of diffusion and the adverb diffusively (扩散地) are integral to numerous scientific disciplines. Whether in the context of biology, chemistry, or environmental science, understanding how substances move and interact diffusively (扩散地) provides valuable insights into the natural world. As we continue to explore these processes, we gain a deeper appreciation for the intricate relationships between different materials and the environments they inhabit, ultimately enriching our knowledge and informing our practices in science and technology.
在科学领域,特别是在物理和化学中,扩散的概念对于理解物质如何相互作用和在不同环境中传播至关重要。扩散的过程可以描述为粒子从高浓度区域移动到低浓度区域,从而随着时间的推移实现更均匀的分布。这种现象不仅发生在气体和液体中,也发生在固体中,其中粒子通过晶格结构移动。当我们考虑术语diffusively(扩散地)时,它指的是这些粒子在介质中扩散或分散的方式。例如,当一滴墨水放入一杯水中时,墨水分子开始在水中diffusively(扩散地)移动,逐渐形成均匀的混合物。这个简单的实验说明了扩散的基本原理,展示了物质如何交融并创造新的溶液。扩散发生的速度取决于多个因素,包括温度、浓度梯度和所涉及物质的性质。在生物系统中,扩散在维持生命所需的各种过程中发挥着重要作用。例如,肺部氧气和二氧化碳的交换就是通过肺泡膜diffusively(扩散地)进行的。氧气在肺泡中的浓度高于血液,因此氧气扩散进入血液,而二氧化碳则向相反方向移动。这种关键的交换确保我们的身体获得细胞呼吸所需的氧气,同时有效排除废气。此外,扩散不仅限于气体和液体;它也发生在固体材料中。例如,当金属被加热时,原子可以通过金属的晶格结构diffusively(扩散地)移动,从而允许合金和相变等过程。理解原子在固体中如何diffusively(扩散地)迁移对于材料科学至关重要,因为它影响各种工程和技术中使用的材料的性质和性能。在环境科学中,扩散可以帮助解释污染物在空气和水中如何扩散。当化学泄漏发生时,所涉及的物质会在周围环境中diffusively(扩散地)传播,从而影响生态系统和人类健康。通过研究扩散模式,科学家可以制定策略来减轻此类泄漏的影响,并保护自然资源。总之,扩散的概念和副词diffusively(扩散地)是众多科学学科不可或缺的一部分。无论是在生物学、化学还是环境科学的背景下,理解物质如何diffusively(扩散地)移动和相互作用为我们提供了对自然世界的宝贵见解。随着我们继续探索这些过程,我们对不同材料与其所处环境之间复杂关系的认识将更加深入,最终丰富我们的知识并指导我们在科学和技术方面的实践。
