aeriform

简明释义

英[ˈeərɪˌfɔːm]美[ˈerəˌfɔrm]

adj. 气态的；非实体的

英英释义

单词用法

同义词

反义词

例句

1.Aeriform lieutenant general does group of relations intimately to be done aloof and tensely originally.

无形中将原本亲密的干群关系弄得疏远而紧张了。

2.Always silently care for her and persist until now, although know the final result. However, there are still a kind of aeriform pain!

一直默默的关心她，坚持到现在，虽然知道最终结果。然而，还是有一种无形的痛！

3.Aeriform capital dish vivid tangible capital, this is the rule of capital operation iron.

无形资本盘活有形资本，这是资本运营铁的规律。

4.Such, aeriform in increased your website to be spent to the agglutinate of the user?

这样，无形之中是不是增加了你网站对用户的粘合度呢？

5.Multistage pulse gas is flabby in the process of layer of terrane crustal stress fracture deflagrate inside break aeriform pressure is cracked since distributinging influence break patulous.

多级脉冲气体松弛岩层地应力压裂地层的过程中裂缝内爆燃气体压力分布影响裂缝起裂扩展。

6.A father is a kind of obscurity, lies in a kind of aeriform in feelings, only a person with your heart can understand.

父爱是一种默默无闻，寓于无形之中的一种感情，只有用心的人才能体会。

7.Actually, come from at society, marriage, job, human wait for respect materiality or aeriform pressure to perplexing our everybody constantly.

其实，来自于社会、婚姻、工作、人际等方面有形或无形的压力时常困扰着我们每个人。

8.Morality has some to plant aeriform mandatory, removing the normative action of certain level to the society.

道德具有某种无形的强制性，对社会起着一定程度的规范作用。

9.The aeriform 气体的 pollutants in the atmosphere can have harmful effects on human health.

大气中的aeriform 气体的污染物可能对人类健康产生有害影响。

10.An aeriform 气体的 state is crucial for understanding weather patterns and climate change.

理解天气模式和气候变化时，aeriform 气体的状态至关重要。

11.The scientist explained that the gas was an aeriform 气体的 substance, essential for the experiment.

科学家解释说，这种气体是一种aeriform 气体的物质，对实验至关重要。

12.The balloon filled with aeriform 气体的 helium floated high into the sky.

充满aeriform 气体的氦气的气球高高飘向天空。

13.In the study of aeriform 气体的 dynamics, researchers focus on how gases behave under different pressures.

在对aeriform 气体的动力学研究中，研究人员关注气体在不同压力下的行为。

作文

In the realm of science, particularly in the study of matter, we often encounter various states of substances. The three most common states are solid, liquid, and gas. However, there exists a lesser-known category that is equally fascinating: the aeriform state. This term refers to substances that are in a gaseous form, but it can also encompass any matter that possesses qualities similar to gas. Understanding the concept of aeriform materials is crucial for numerous scientific fields, including chemistry, physics, and environmental science.To illustrate the significance of aeriform substances, consider the role of gases in our atmosphere. Air, which is primarily composed of nitrogen, oxygen, carbon dioxide, and other trace gases, is a perfect example of aeriform matter. These gases are not only essential for human and animal life but also play a significant role in regulating the Earth's climate. For instance, the greenhouse gases, which are a subset of aeriform substances, help trap heat in the atmosphere, maintaining a temperature that supports life.Moreover, the study of aeriform substances extends beyond just the gases we breathe. In industrial applications, understanding the properties of aeriform materials is vital for processes such as combustion, filtration, and even the production of various chemicals. Engineers and scientists must consider how these gases behave under different conditions, including changes in temperature and pressure. This knowledge is essential for designing equipment that can safely and efficiently handle aeriform substances.In addition to their practical applications, aeriform materials also have intriguing implications in theoretical physics. Concepts such as gas laws and kinetic molecular theory provide insights into how particles behave in an aeriform state. These theories explain phenomena such as diffusion and effusion, which describe how gases spread and move through different environments. Such understanding is crucial for advancements in technology, including the development of new materials and energy sources.Furthermore, the environmental impact of aeriform substances cannot be overlooked. Pollution from aeriform emissions, such as carbon monoxide and sulfur dioxide, poses significant challenges to public health and ecosystems. Scientists are continuously researching ways to mitigate these effects and reduce the release of harmful gases into the atmosphere. This ongoing battle against air pollution highlights the importance of understanding aeriform substances and their interactions with the environment.In conclusion, the term aeriform encompasses a wide range of gaseous materials that play crucial roles in both natural and industrial processes. From the air we breathe to the gases that fuel our engines, aeriform substances are integral to our existence and development. By deepening our understanding of these materials, we can better address the challenges they present and harness their potential for innovation and sustainability. As we continue to explore the intricacies of matter, the significance of aeriform substances will undoubtedly remain a key focus in the scientific community.

在科学领域，特别是在物质研究中，我们经常会遇到各种物质状态。最常见的三种状态是固态、液态和气态。然而，还有一个不太为人所知的类别同样引人入胜：气态状态。这个术语指的是以气体形式存在的物质，但它也可以包括任何具有类似气体特性的物质。理解气态材料的概念对于化学、物理和环境科学等多个科学领域至关重要。为了说明气态物质的重要性，可以考虑气体在我们大气中的作用。空气主要由氮、氧、二氧化碳和其他微量气体组成，是气态物质的完美例子。这些气体不仅对人类和动物的生命至关重要，而且在调节地球气候方面也发挥着重要作用。例如，温室气体，作为气态物质的一部分，有助于在大气中捕获热量，维持支持生命的温度。此外，气态物质的研究不仅限于我们呼吸的气体。在工业应用中，理解气态材料的特性对于燃烧、过滤，甚至各种化学品的生产等过程至关重要。工程师和科学家必须考虑这些气体在不同条件下的行为，包括温度和压力的变化。这种知识对于设计能够安全高效处理气态物质的设备至关重要。除了实际应用外，气态材料在理论物理学中也具有引人入胜的意义。气体定律和动量理论等概念提供了对粒子在气态状态下行为的深入了解。这些理论解释了扩散和透过等现象，描述了气体如何在不同环境中传播和移动。这种理解对于技术进步至关重要，包括新材料和能源来源的发展。此外，气态物质对环境的影响也不容忽视。来自气态排放的污染，例如一氧化碳和二氧化硫，对公共健康和生态系统构成了重大挑战。科学家们正在不断研究减轻这些影响的方法，以减少有害气体释放到大气中的数量。这场与空气污染的持续斗争突显了理解气态物质及其与环境相互作用的重要性。总之，气态一词涵盖了一系列在自然和工业过程中发挥关键作用的气体材料。从我们呼吸的空气到推动我们引擎的气体，气态物质对于我们的生存和发展至关重要。通过加深对这些材料的理解，我们可以更好地应对它们带来的挑战，并利用它们的潜力进行创新和可持续发展。随着我们继续探索物质的复杂性，气态物质的重要性无疑将继续成为科学界的重点关注。