dispersiveness

简明释义

英[/dɪsˈpɜr.sɪv.nəs/]美[/dɪsˈpɜr.sɪv.nəs/]

n. 分散性；色散度

英英释义

单词用法

同义词

反义词

例句

1.This kind of phenomenon can give people noble feeling, otherwise through the dispersiveness can turn the white light into colored band of light, which may realize the non - pigment coloration.

这种现象给人以高贵的感觉，另外通过色散可将白光变成彩色光带，可实现非色素显色。

2.This kind of phenomenon can give people noble feeling, otherwise through the dispersiveness can turn the white light into colored band of light, which may realize the non - pigment coloration.

这种现象给人以高贵的感觉，另外通过色散可将白光变成彩色光带，可实现非色素显色。

3.Therefore, to research the question of textile fiber dispersiveness is extremely significance to instructs the exploitation of special gloss textile fiber and the environmental protection.

因此，研究纤维的色散问题对指导特殊光泽纤维的开发及环保问题有非常重要的意义。

4.Superior dispersiveness has reduced the forming of the crankcase oil sludge greatly.

优越的分散性大大降低了曲轴箱油泥的形成。

5.The dispersiveness of the paint allows it to cover large areas evenly.

这种油漆的分散性使其能够均匀覆盖大面积。

6.In chemistry, the dispersiveness of a solvent affects how well it can dissolve solutes.

在化学中，溶剂的分散性影响其溶解溶质的能力。

7.The dispersiveness of the cloud particles determines how light is scattered in the atmosphere.

云粒子的分散性决定了光在大气中的散射方式。

8.A material's dispersiveness can influence its thermal conductivity.

材料的分散性会影响其热导率。

9.The dispersiveness of the ink used in printers ensures high-quality prints.

打印机中使用的墨水的分散性确保了高质量的打印效果。

作文

In the study of physics and various natural phenomena, the concept of dispersiveness plays a crucial role in understanding how waves and particles behave in different mediums. Dispersiveness refers to the tendency of a wave or particle to spread out or disperse as it travels through space. This characteristic can be observed in many contexts, including optics, acoustics, and even in the dispersion of pollutants in the environment. For instance, when light passes through a prism, it is separated into its constituent colors due to the dispersiveness of the glass material. Each color has a different wavelength and, consequently, a different speed when traveling through the prism. This phenomenon not only illustrates the concept of dispersiveness but also highlights the beauty of light and color in our world. Without dispersiveness, we would not experience the vibrant spectrum that we see in rainbows or when sunlight filters through a stained glass window. In addition to optics, dispersiveness is also a critical factor in acoustics. Sound waves, much like light waves, exhibit dispersiveness when they travel through different mediums. For example, the speed of sound varies in air, water, and solids. This variation leads to different frequencies of sound waves dispersing at different rates, which can affect how we perceive sounds in our environment. Musicians often take advantage of this principle when designing concert halls to ensure optimal sound quality through careful consideration of dispersiveness. Moreover, the concept of dispersiveness extends beyond the realm of physics into environmental science. When pollutants are released into the atmosphere or bodies of water, their dispersiveness determines how quickly and widely they spread. Understanding the dispersiveness of these substances is vital for predicting their impact on ecosystems and human health. For instance, a highly dispersive pollutant may dissipate quickly, reducing its harmful effects, while a less dispersive substance may linger and accumulate, posing greater risks. In conclusion, the concept of dispersiveness is fundamental to various scientific disciplines, influencing our understanding of light, sound, and environmental processes. By studying dispersiveness, we gain insights into the behavior of waves and particles, which can lead to advancements in technology, art, and environmental protection. Whether we are admiring the colors of a sunset, enjoying a symphony, or addressing pollution, dispersiveness is an ever-present aspect of our lives that shapes our experiences and understanding of the world around us.

在物理学和各种自然现象的研究中，dispersiveness（分散性）的概念在理解波动和粒子在不同介质中的行为方面发挥着至关重要的作用。Dispersiveness指的是波或粒子在穿越空间时扩散或分散的倾向。这种特征可以在许多背景下观察到，包括光学、声学，甚至是污染物在环境中的扩散。 例如，当光通过棱镜时，由于玻璃材料的dispersiveness，它被分离成其组成颜色。每种颜色都有不同的波长，因此在通过棱镜时具有不同的速度。这一现象不仅说明了dispersiveness的概念，还突显了我们世界中光与色彩的美丽。如果没有dispersiveness，我们将无法体验到彩虹或阳光透过彩色玻璃窗时所看到的生动光谱。 除了光学之外，dispersiveness在声学中也是一个关键因素。当声波像光波一样在不同介质中传播时，它们表现出dispersiveness。例如，声音在空气、水和固体中的速度各不相同。这种变化导致不同频率的声波以不同的速度扩散，这会影响我们对周围环境中声音的感知。音乐家在设计音乐厅时常常利用这一原理，通过仔细考虑dispersiveness来确保最佳的音质。 此外，dispersiveness的概念超越了物理学领域，延伸到了环境科学。当污染物释放到大气或水体中时，它们的dispersiveness决定了它们扩散的速度和范围。理解这些物质的dispersiveness对于预测它们对生态系统和人类健康的影响至关重要。例如，一种高度dispersive的污染物可能会迅速消散，从而减少其有害影响，而一种较低dispersive的物质可能会停留并积累，带来更大的风险。 总之，dispersiveness的概念是多个科学学科的基础，影响着我们对光、声和环境过程的理解。通过研究dispersiveness，我们获得了对波动和粒子行为的深刻见解，这可以促进技术、艺术和环境保护的进步。无论我们是在欣赏日落的色彩、享受交响乐，还是应对污染，dispersiveness都是我们生活中一个无处不在的方面，塑造着我们对周围世界的体验和理解。