scatteration

简明释义

英[ˌskætəˈreɪʃən]美[ˌskætəˈreɪʃən]

n. 分散

英英释义

单词用法

同义词

反义词

例句

1.The utility model relates to a maneuver cutting device which is designed to increase the capacity of tea and decrease the scatteration and loss of the cut tea.

本实用新型涉及一种机动切割装置，为提高茶叶收容量、减少所剪茶叶的散落和损失而设计。

2.Based on the emission, absorption, diffusion, reflection and scatteration of light by a voxel, it is suitable for generating and rendering realistic images of complex scenes.

它建立在体单元对光线的发射、吸收、漫射、反射和散射的基础上，适用于复杂景物的生成和演示。

3.Based on the emission, absorption, diffusion, reflection and scatteration of light by a voxel, it is suitable for generating and rendering realistic images of complex scenes.

基于体单元对光线的发射、吸收、漫射、反射和散射基础上的体放射法，适用于复杂景物的生成和演示，在真实感图形演示中具有重要地位。

4.In macroscopic view, the segregation and recombination of genes is similar with the molecule movement, which is from order to out-of-order automatically and from concentration to scatteration.

从宏观上看，基因的分离重组类似于分子的运动，都是自发地从有序走向无序、从集中走向分散。

5.In macroscopic view, the segregation and recombination of genes is similar with the molecule movement, which is from order to out-of-order automatically and from concentration to scatteration.

从宏观上看，基因的分离重组类似于分子的运动，都是自发地从有序走向无序、从集中走向分散。

6.Her thoughts were in a state of scatteration 分散, making it hard for her to focus on the task at hand.

她的思绪处于分散状态，使得她很难专注于手头的任务。

7.In the experiment, the scatteration 分散 of particles was observed under the microscope.

在实验中，颗粒的分散在显微镜下被观察到。

8.The scatteration 分散 of light created a beautiful rainbow effect across the room.

光的分散在房间里创造了美丽的彩虹效果。

9.The scatteration 分散 of seeds by the wind helped to propagate the plant species across the field.

风的分散使种子帮助植物物种在田野中传播。

10.The artist's work was characterized by a unique form of scatteration 分散 that drew the viewer's eye in multiple directions.

这位艺术家的作品以一种独特的分散形式为特征，吸引观众的目光向多个方向移动。

作文

In the realm of science and mathematics, the term scatteration refers to the process or phenomenon where particles or data points are dispersed or spread out in various directions. This concept is crucial in understanding how different elements interact within a given space. For instance, when we consider the behavior of gas molecules in a container, we can observe that they do not remain stationary; instead, they exhibit a certain degree of scatteration, moving freely and colliding with one another. This randomness is essential for the principles of thermodynamics, as it helps us understand temperature and pressure variations.Moreover, in statistical analysis, scatteration plays a significant role in data visualization. When researchers collect data, they often plot these points on a graph to identify trends or patterns. A high degree of scatteration among the data points can indicate a lack of correlation between variables, while a low degree may suggest a strong relationship. For example, if we were to plot the hours studied against exam scores, a tight cluster of points would indicate that more study time correlates with higher scores, whereas a wide spread would suggest that other factors might be influencing performance.In everyday life, we can observe scatteration in various contexts. Take, for instance, a child throwing a handful of marbles onto the ground. The marbles will scatter in different directions, demonstrating the concept of scatteration in a tangible way. This simple action illustrates how objects can disperse from a central point, much like how ideas and innovations can spread across communities.Furthermore, in ecology, the scatteration of seeds by the wind plays a critical role in plant reproduction and biodiversity. When trees release their seeds, they are carried away by the breeze, landing in different locations and allowing new plants to grow in diverse environments. This natural process of scatteration ensures that species can thrive in various habitats, contributing to the overall health of ecosystems.In conclusion, understanding the concept of scatteration is vital across multiple disciplines. Whether in the physical sciences, statistics, everyday observations, or ecological processes, scatteration provides insight into how elements interact and evolve within their environments. By recognizing the significance of scatteration, we can better appreciate the complexity of the world around us and the myriad ways in which things can be interconnected despite their apparent randomness. As we continue to explore and study these phenomena, we enhance our knowledge and pave the way for future discoveries that could further illuminate the intricate tapestry of life and the universe.

在科学和数学的领域中，术语scatteration指的是粒子或数据点在不同方向上分散或扩散的过程或现象。这个概念对于理解不同元素在特定空间内的相互作用至关重要。例如，当我们考虑气体分子在容器中的行为时，我们可以观察到它们并不保持静止；相反，它们表现出一定程度的scatteration，自由移动并相互碰撞。这种随机性对于热力学原理是必不可少的，因为它帮助我们理解温度和压力的变化。此外，在统计分析中，scatteration在数据可视化中也发挥着重要作用。当研究人员收集数据时，他们通常会将这些点绘制在图表上，以识别趋势或模式。数据点之间的高scatteration可能表明变量之间缺乏相关性，而低scatteration则可能暗示强关系。例如，如果我们绘制学习时间与考试成绩的关系，紧密聚集的点将表明更多的学习时间与更高的成绩相关，而广泛的分散则表明其他因素可能影响表现。在日常生活中，我们可以在各种背景下观察到scatteration。以一个孩子将一把弹珠扔到地上的例子为例，弹珠会朝不同方向散开，生动地展示了scatteration的概念。这一简单的动作说明了物体如何从中心点分散，正如思想和创新可以在社区中传播一样。此外，在生态学中，风的scatteration种子在植物繁殖和生物多样性中起着关键作用。当树木释放种子时，它们被微风带走，落在不同的位置，允许新植物在多样的环境中生长。这种自然的scatteration过程确保了物种能够在各种栖息地中繁衍生息，为生态系统的整体健康做出贡献。总之，理解scatteration的概念在多个学科中都是至关重要的。无论是在自然科学、统计学、日常观察还是生态过程中，scatteration都提供了对元素如何在其环境中相互作用和演变的洞察。通过认识到scatteration的重要性，我们可以更好地欣赏周围世界的复杂性，以及尽管看似随机的事物之间的千丝万缕的联系。随着我们继续探索和研究这些现象，我们增强了我们的知识，并为未来的发现铺平了道路，这些发现可以进一步阐明生命和宇宙的错综复杂的织锦。