nucleus formation

简明释义

核组成核生成作用生成作用

英英释义

例句

1.The study of cell biology often focuses on the process of nucleus formation (细胞核的形成) during cell division.

细胞生物学的研究通常集中于细胞分裂过程中nucleus formation（细胞核的形成）的过程。

2.The disruption of nucleus formation (细胞核的形成) can lead to various genetic disorders.

nucleus formation（细胞核的形成）的破坏可能导致各种遗传疾病。

3.During the experiment, scientists documented the stages of nucleus formation (细胞核的形成) under a microscope.

在实验过程中，科学家在显微镜下记录了nucleus formation（细胞核的形成）的各个阶段。

4.In embryonic development, nucleus formation (细胞核的形成) is crucial for proper cell differentiation.

在胚胎发育中，nucleus formation（细胞核的形成）对细胞的正确分化至关重要。

5.Researchers observed that nucleus formation (细胞核的形成) can be influenced by environmental factors.

研究人员观察到，nucleus formation（细胞核的形成）可以受到环境因素的影响。

作文

The concept of nucleus formation is crucial in various scientific fields, particularly in biology and chemistry. In biological terms, nucleus formation refers to the process through which a nucleus is formed within a cell, playing a vital role in cellular development and function. The nucleus serves as the control center of the cell, housing the genetic material that dictates cellular activities and heredity. Understanding how nucleus formation occurs can provide insights into cellular processes such as growth, reproduction, and differentiation.In the realm of chemistry, nucleus formation can refer to the initial stages of crystal growth or the formation of a new phase in a material. This process is essential in understanding how substances transition from one state to another, such as from liquid to solid. The study of nucleus formation in this context helps scientists manipulate conditions to produce desired materials with specific properties.Additionally, nucleus formation plays a significant role in astrophysics, where it describes the formation of celestial bodies. For instance, the formation of stars begins with the accumulation of gas and dust in space, leading to the creation of a dense core or nucleus. This process is fundamental to the evolution of galaxies and the universe as a whole.The implications of nucleus formation extend beyond individual disciplines, highlighting the interconnectedness of scientific concepts. For example, in medicine, understanding nucleus formation can aid in the development of therapies targeting specific diseases that involve cellular dysfunction, such as cancer. Researchers are exploring how manipulating the nucleus formation process could lead to innovative treatments that restore normal cellular function.Moreover, environmental science also benefits from studying nucleus formation. In atmospheric sciences, the formation of cloud nuclei is critical for precipitation processes. Understanding how these nuclei form can improve weather prediction models and climate change studies.In conclusion, nucleus formation is a multifaceted concept that permeates various scientific disciplines. Its significance lies in its ability to elucidate complex processes, whether in biological systems, chemical reactions, astrophysical phenomena, or environmental changes. By deepening our understanding of nucleus formation, we can advance knowledge across fields, leading to innovations that enhance our quality of life and address pressing global challenges.

“核形成”这一概念在多个科学领域中至关重要，特别是在生物学和化学中。在生物学中，“核形成”指的是细胞内核的形成过程，这一过程在细胞的发育和功能中发挥着重要作用。细胞核作为细胞的控制中心，储存着决定细胞活动和遗传特征的遗传物质。理解“核形成”如何发生可以为我们提供关于细胞生长、繁殖和分化等过程的深入见解。在化学领域，“核形成”可以指晶体生长的初始阶段或材料中新相的形成。这一过程对于理解物质如何从一种状态转变为另一种状态（例如从液态转变为固态）至关重要。研究“核形成”在这个背景下帮助科学家操控条件，以生产具有特定性质的材料。此外，“核形成”在天体物理学中也扮演着重要角色，它描述了天体的形成。例如，恒星的形成始于气体和尘埃在空间中的聚集，导致密集核心或核的形成。这个过程是银河系及整个宇宙演化的基础。“核形成”的影响超越了单一学科，突显了科学概念之间的相互联系。例如，在医学领域，理解“核形成”可以帮助开发针对特定疾病的治疗方法，这些疾病涉及细胞功能障碍，如癌症。研究人员正在探索如何通过操控“核形成”过程来开发创新疗法，从而恢复正常的细胞功能。此外，环境科学也受益于研究“核形成”。在大气科学中，云核的形成对降水过程至关重要。理解这些核是如何形成的可以改善天气预测模型和气候变化研究。总之，“核形成”是一个多方面的概念，渗透到多个科学领域。它的重要性在于能够阐明复杂的过程，无论是在生物系统、化学反应、天体物理现象还是环境变化中。通过加深对“核形成”的理解，我们可以推进各领域的知识，推动创新，从而提高我们的生活质量并应对全球面临的紧迫挑战。