aerophore

简明释义

英[ˈeərəˌfɔː]美[ˈerəˌfɔr]

n. 呼吸面具；通风面具

英英释义

单词用法

同义词

反义词

例句

1.Pneumatophore ( aerophore ; breathing root ) a specialized neg atively geotropic root produced by certain aquatic vascular plants ( especially trees such as man groves, e. g.

呼吸根：指由某种水生维管植物产生的特化的负向地性根（尤其如红树，如海桑属） ，在土壤之上生长良好。

2.Pneumatophore ( aerophore ; breathing root ) a specialized neg atively geotropic root produced by certain aquatic vascular plants ( especially trees such as man groves, e. g.

呼吸根：指由某种水生维管植物产生的特化的负向地性根（尤其如红树，如海桑属） ，在土壤之上生长良好。

3.Pneumatophore aerophore; breathing root a specialized negatively geotropic root produced by certain aquatic vascular plants especially trees such as mangroves, e. g.

呼吸根：指由某种水生维管植物产生的特化的负向地性根(尤其如红树，如海桑属)，在土壤之上生长良好。

4.The engineers designed a new type of aerophore that could withstand high pressures.

工程师们设计了一种新型的aerophore，能够承受高压。

5.In the laboratory, the aerophore was essential for studying microbial life in extreme conditions.

在实验室中，aerophore对研究极端条件下的微生物生命至关重要。

6.The research team discovered that the aerophore improved the efficiency of gas exchange.

研究小组发现，aerophore提高了气体交换的效率。

7.The scientist used an aerophore to collect air samples from the atmosphere.

科学家使用一个aerophore来收集大气中的空气样本。

8.During the experiment, the aerophore helped maintain a stable environment for the samples.

在实验过程中，aerophore帮助为样本维持了一个稳定的环境。

作文

In the realm of science and technology, there are numerous terms that may seem obscure at first glance. One such term is aerophore, which refers to a device or apparatus used for the transportation and storage of gases, particularly in the context of aviation and space exploration. Understanding the significance of an aerophore can provide insights into how we manage gases in various environments, especially those that are inhospitable to human life.The word itself is derived from the Greek roots 'aero,' meaning air, and 'phore,' meaning bearer or carrier. This etymology hints at the primary function of an aerophore: to carry air or gas. In practical applications, aerophores are crucial in scenarios where maintaining a stable atmosphere is necessary, such as in spacecraft where the external environment is not suitable for human survival.For instance, during space missions, astronauts rely on aerophores to ensure that they have a supply of breathable air. These devices can store oxygen and other gases needed for life support systems. The ability to transport and store these gases efficiently is vital for the safety and success of any space mission. Without effective aerophores, the risks associated with space travel would increase significantly, making it imperative for engineers and scientists to innovate continually in this field.Moreover, aerophores are not limited to space exploration. They also find applications in various industries on Earth. For example, in underwater exploration, divers use tanks that function similarly to aerophores to carry compressed air for breathing while submerged. These tanks must be designed to withstand high pressures and ensure a safe supply of air, much like the aerophores used in spacecraft.The importance of aerophores extends beyond mere functionality. They represent the intersection of engineering, environmental science, and human ingenuity. As we continue to explore new frontiers, both on our planet and beyond, the role of aerophores will become increasingly critical. Engineers are constantly working on improving their designs to make them lighter, more efficient, and capable of holding larger quantities of gas.In addition, the study of aerophores can lead to advancements in related fields, such as renewable energy. For instance, as we seek to harness wind and solar energy, understanding how to store and transport gases effectively will be essential. Innovations in aerophore technology could contribute to more sustainable energy solutions, ultimately benefiting society as a whole.In conclusion, the term aerophore encapsulates a vital component of modern science and technology. From ensuring the safety of astronauts to aiding underwater explorers, aerophores play a crucial role in enabling human exploration of challenging environments. As we continue to push the boundaries of what is possible, the significance of aerophores will undoubtedly grow, highlighting the importance of innovation and research in this fascinating field. Understanding and mastering the concept of aerophore is essential for anyone interested in the future of exploration and technology, as it represents not only a technical challenge but also a gateway to new possibilities in how we interact with our world and beyond.

在科学和技术的领域中，有许多术语乍一看可能显得晦涩。一个这样的术语是aerophore，它指的是一种用于气体运输和存储的设备或装置，特别是在航空和太空探索的背景下。理解aerophore的重要性可以提供对我们如何在各种环境中管理气体的深入见解，尤其是在那些对人类生命不适宜的环境中。这个词本身源于希腊语根词“aero”，意为空气，以及“phore”，意为承载者或携带者。这种词源暗示了aerophore的主要功能：携带空气或气体。在实际应用中，aerophores在需要维持稳定气氛的场景中至关重要，例如在航天器中，外部环境不适合人类生存。例如，在太空任务中，宇航员依赖aerophores来确保他们有可呼吸的空气供应。这些设备可以存储氧气和其他生命支持系统所需的气体。有效地运输和存储这些气体的能力对于任何太空任务的安全和成功至关重要。没有有效的aerophores，太空旅行的风险将显著增加，因此工程师和科学家必须在这一领域不断创新。此外，aerophores并不仅限于太空探索。它们也在地球上的各个行业中找到应用。例如，在水下探险中，潜水员使用类似aerophores的气瓶来携带压缩空气，以便在水下呼吸。这些气瓶必须设计成能够承受高压并确保安全的空气供应，就像航天器中使用的aerophores一样。aerophores的重要性不仅限于功能性。它们代表了工程、环境科学和人类智慧的交汇点。随着我们继续探索新的边界，无论是在我们的星球上还是超越它，aerophores的作用将变得越来越关键。工程师们不断致力于改进它们的设计，使其更轻、更高效，并能够容纳更多的气体。此外，对aerophores的研究还可以促进相关领域的进步，例如可再生能源。例如，随着我们寻求利用风能和太阳能，理解如何有效地存储和运输气体将是至关重要的。aerophore技术的创新可能会有助于更可持续的能源解决方案，最终使整个社会受益。总之，术语aerophore概括了现代科学和技术的一个重要组成部分。从确保宇航员的安全到帮助水下探险者，aerophores在使人类探索具有挑战性的环境中扮演着至关重要的角色。随着我们继续推动可能性的边界，aerophores的重要性无疑会增加，突显出创新和研究在这一迷人领域的重要性。理解和掌握aerophore的概念对于任何对探索和技术的未来感兴趣的人来说都是至关重要的，因为它不仅代表了一项技术挑战，也是我们如何与世界及其超越互动的新可能性的门户。