inert cell
简明释义
无效电池
英英释义
An inert cell is a type of cell that does not actively participate in chemical reactions or biological processes due to its stable and unreactive nature. | 惰性细胞是一种由于其稳定和不活泼的特性而不积极参与化学反应或生物过程的细胞。 |
例句
1.The team decided to use an inert cell 惰性细胞 to ensure that their measurements were not affected by external factors.
团队决定使用一个惰性细胞 inert cell 来确保他们的测量不受外部因素的影响。
2.In the context of battery technology, an inert cell 惰性细胞 can help prevent unwanted chemical reactions during storage.
在电池技术中,惰性细胞 inert cell 可以帮助防止储存期间发生不必要的化学反应。
3.During the analysis, the inert cell 惰性细胞 served as a control to compare the active cells' behavior.
在分析过程中,惰性细胞 inert cell 作为对照,以比较活跃细胞的行为。
4.Researchers found that the presence of an inert cell 惰性细胞 improved the stability of the biological sample.
研究人员发现,惰性细胞 inert cell 的存在提高了生物样本的稳定性。
5.The laboratory observed that the inert cell 惰性细胞 did not react with any of the chemicals used in the experiment.
实验室观察到,惰性细胞 inert cell 对实验中使用的任何化学物质都没有反应。
作文
In the realm of biology, the term inert cell refers to a type of cell that remains inactive or does not participate in metabolic processes. These cells can be found in various organisms and serve specific functions that may not require constant activity. Understanding the role of inert cells is crucial for comprehending how different cellular mechanisms operate within living beings.One of the most common examples of inert cells can be seen in certain types of plant tissues. For instance, the parenchyma cells in plants often exhibit characteristics of inactivity when they are not involved in photosynthesis or storage processes. These cells can remain dormant until conditions are favorable for growth or repair. This dormancy allows plants to conserve energy and resources, which is vital for their survival in fluctuating environmental conditions.In animals, inert cells can also play an essential role. For example, some immune cells may become inactive during certain phases of an immune response. They are not always required to be active, as their main function is to respond to pathogens when necessary. This ability to switch between active and inert states is a critical aspect of the immune system's efficiency, allowing it to allocate resources wisely.Moreover, the study of inert cells has significant implications in medical research and biotechnology. By understanding how these cells function, scientists can develop strategies to manipulate them for therapeutic purposes. For instance, researchers are investigating ways to reactivate inert cells in damaged tissues to promote healing and regeneration. This approach could lead to groundbreaking treatments for various diseases, including degenerative conditions and injuries.Furthermore, the concept of inert cells can extend beyond biology into other fields such as materials science and engineering. In these contexts, the term might describe components that do not react chemically or physically under certain conditions. For example, inert gases are utilized in welding to create an environment that prevents unwanted reactions. Similarly, understanding the properties of inert cells in materials can help engineers design more effective products that withstand harsh conditions.In conclusion, the term inert cell encompasses a variety of meanings across different scientific disciplines. Whether in biology, medicine, or materials science, these cells or components that remain inactive under certain conditions play vital roles in their respective systems. As research continues to evolve, our understanding of inert cells will likely expand, revealing new applications and insights that can benefit society as a whole. By exploring the nature and function of inert cells, we can gain a deeper appreciation for the complexity and intricacy of life itself.
在生物学领域,术语惰性细胞指的是一种不活跃或不参与代谢过程的细胞。这些细胞可以在各种生物体中找到,并发挥特定的功能,这些功能可能不需要持续的活动。理解惰性细胞的作用对于理解不同细胞机制在生物体内如何运作至关重要。一个常见的惰性细胞例子可以在某些类型的植物组织中看到。例如,植物中的薄壁组织细胞在不参与光合作用或储存过程时,通常表现出不活跃的特征。这些细胞可以保持休眠状态,直到条件有利于生长或修复。这种休眠状态使植物能够节省能量和资源,这对它们在变化的环境条件下生存至关重要。在动物体内,惰性细胞也可以发挥重要作用。例如,在免疫反应的某些阶段,一些免疫细胞可能会变得不活跃。它们并不总是需要保持活跃状态,因为它们的主要功能是在必要时响应病原体。这种在活跃状态和惰性状态之间切换的能力是免疫系统效率的关键方面,使其能够明智地分配资源。此外,研究惰性细胞在医学研究和生物技术中具有重要意义。通过理解这些细胞的功能,科学家可以开发策略来操纵它们以用于治疗目的。例如,研究人员正在调查如何重新激活受损组织中的惰性细胞以促进愈合和再生。这种方法可能导致各种疾病(包括退行性疾病和伤害)的突破性治疗。此外,惰性细胞的概念可以扩展到材料科学和工程等其他领域。在这些背景下,该术语可能描述在某些条件下不会发生化学或物理反应的组件。例如,惰性气体用于焊接,以创造防止不必要反应的环境。同样,理解材料中惰性细胞的性质可以帮助工程师设计更有效的产品,以承受恶劣条件。总之,术语惰性细胞在不同科学学科中包含多种含义。无论是在生物学、医学还是材料科学中,这些在某些条件下保持不活跃的细胞或组件在各自的系统中发挥着重要作用。随着研究的不断发展,我们对惰性细胞的理解可能会扩大,揭示出新的应用和见解,从而造福整个社会。通过探索惰性细胞的性质和功能,我们可以更深入地欣赏生命本身的复杂性和精密性。
相关单词
