dispersively

简明释义

英[dɪsˈpɜːsɪvli]美[dɪsˈpɜr.sɪv.li]

分散地

散开地

弥散地

色散地

英英释义

单词用法

同义词

反义词

例句

1.The results show that the copper phase precipitate dispersively on tungsten body and appear short or coarse structure after cryogenic treatment.

结果表明：深冷处理后铜颗粒以短棒状形态在钨基体上弥散析出。

2.The results show that the copper phase precipitate dispersively on tungsten body and appear short or coarse structure after cryogenic treatment.

结果表明：深冷处理后铜颗粒以短棒状形态在钨基体上弥散析出。

3.Finally, I research these four words generally and think dispersively to explore reasons and universal law of these network words.

最后，变分散考察为综合考察，综观这四个网络翻新词语，探讨和揭示新词语翻新使用背后的原因，分析得出普遍规律。

4.The light was scattered dispersively, creating a beautiful spectrum of colors.

光线以分散的方式散射，形成了美丽的色谱。

5.In the experiment, the particles moved dispersively through the medium.

在实验中，颗粒通过介质以分散的方式移动。

6.The sound waves traveled dispersively, causing echoes in the valley.

声波以分散的方式传播，导致山谷中的回声。

7.The chemical reaction occurred dispersively, resulting in a uniform mixture.

化学反应以分散的方式发生，导致均匀的混合物。

8.When the dye was added to the water, it spread dispersively throughout the liquid.

当染料加入水中时，它以分散的方式扩散到液体中。

作文

In the realm of science, particularly in physics and chemistry, the concept of dispersion plays a crucial role in understanding how substances interact with one another. When we think about light, for instance, it is fascinating to note how it can travel through different mediums and change its behavior based on the properties of those mediums. One term that encapsulates this phenomenon is dispersively, which refers to the way in which waves, particles, or even energy can spread out or scatter when they encounter obstacles or different materials. This scattering can lead to various outcomes depending on the context. For example, consider a prism. When white light passes through a prism, it is refracted and dispersively separated into its constituent colors: red, orange, yellow, green, blue, indigo, and violet. This dispersive effect allows us to see the spectrum of visible light and understand more about the nature of light itself. Without this dispersive behavior, we would not have the technological advancements that rely on this principle, such as fiber optics, which uses light to transmit data over long distances. In the field of environmental science, the term dispersively also finds relevance. For instance, when pollutants are released into the air or water, they do not remain concentrated in one spot. Instead, they spread out dispersively, affecting larger areas than one might initially expect. Understanding this dispersive behavior is essential for creating effective strategies to mitigate pollution and protect ecosystems. Scientists use models to predict how these substances will move and interact with their surroundings, which is vital for public health and environmental conservation. Moreover, in social sciences, the concept of dispersively can be applied to the study of populations and cultures. When people migrate from one place to another, they often take their customs, traditions, and languages with them. This migration leads to a dispersive spread of cultural influences, enriching the communities they join while also transforming their own identities. The dispersive nature of culture can foster diversity and innovation, as different perspectives come together to create new ideas and practices. In conclusion, the term dispersively is not merely a scientific term; it has broad implications across various fields. Whether we are examining light passing through a prism, pollutants spreading through an ecosystem, or cultures blending in a globalized world, the idea of dispersively illustrates the interconnectedness and complexity of our universe. By understanding how things spread out and interact, we can better appreciate the intricate patterns of life and the forces that shape our environment. As we continue to explore these concepts, it becomes clear that the dispersive nature of phenomena is fundamental to both scientific inquiry and the human experience.

在科学领域，特别是在物理和化学中，分散的概念在理解物质之间的相互作用方面起着至关重要的作用。当我们考虑光时，令人着迷的是，它如何通过不同的介质传播，并根据这些介质的特性改变其行为。一个能够概括这一现象的术语是dispersively，它指的是波、粒子或甚至能量在遇到障碍物或不同材料时如何扩散或散射的方式。这种散射可能会导致不同的结果，具体取决于上下文。 例如，考虑一个棱镜。当白光穿过棱镜时，它会折射并dispersively分离成其组成颜色：红色、橙色、黄色、绿色、蓝色、靛蓝和紫色。这个dispersive效应使我们能够看到可见光谱，并更好地理解光的本质。如果没有这种dispersive行为，我们就不会拥有依赖这一原理的技术进步，例如光纤，它利用光在长距离上传输数据。 在环境科学领域，dispersively一词同样具有相关性。例如，当污染物释放到空气或水中时，它们并不会集中在一个地方。相反，它们会dispersively扩散，影响比最初预期的更大面积。理解这种dispersive行为对于制定有效的减排策略和保护生态系统至关重要。科学家们使用模型来预测这些物质将如何移动和与周围环境相互作用，这对公共健康和环境保护至关重要。 此外，在社会科学中，dispersively的概念可以应用于人口和文化的研究。当人们从一个地方迁移到另一个地方时，他们通常会带着自己的风俗、传统和语言。这种迁移导致了文化影响的dispersive传播，丰富了他们所加入的社区，同时也改变了他们自己的身份。文化的dispersive特性可以促进多样性和创新，因为不同的视角汇聚在一起创造新的想法和实践。 总之，dispersively这个术语不仅仅是一个科学术语；它在各个领域都有广泛的意义。无论我们是在研究光通过棱镜的传播、污染物在生态系统中的扩散，还是文化在全球化世界中的融合，dispersively的概念都说明了我们宇宙的相互联系和复杂性。通过理解事物如何扩散和相互作用，我们可以更好地欣赏生活的复杂模式以及塑造我们环境的力量。随着我们继续探索这些概念，显然，现象的dispersive性质是科学探究和人类体验的基础。