nuclear transition

简明释义

核跃迁

英英释义

例句

1.The nuclear transition (核转变) observed in this experiment was unexpected.

在这个实验中观察到的核转变（核转变）是意外的。

2.This model helps predict the outcomes of nuclear transition (核转变) events.

这个模型有助于预测核转变（核转变）事件的结果。

3.The research focused on the processes involved in nuclear transition (核转变) within atomic nuclei.

该研究集中在原子核内涉及的核转变（核转变）过程中。

4.Understanding nuclear transition (核转变) is crucial for advancements in nuclear energy.

理解核转变（核转变）对核能的进步至关重要。

5.Scientists are studying the nuclear transition (核转变) rates of various isotopes.

科学家们正在研究各种同位素的核转变（核转变）速率。

作文

The concept of nuclear transition refers to the changes that occur within the nucleus of an atom. This can involve various processes such as nuclear decay, fission, and fusion. Understanding nuclear transition is crucial in fields like nuclear physics, medicine, and energy production. For instance, in nuclear medicine, nuclear transition plays a vital role in the use of radioactive isotopes for diagnosis and treatment. When a radioactive isotope undergoes a nuclear transition, it emits radiation that can be detected by imaging devices, allowing doctors to visualize internal organs and identify abnormalities.In the realm of energy production, nuclear transition is fundamental to the operation of nuclear reactors. During the process of nuclear fission, heavy nuclei split into lighter nuclei, releasing a significant amount of energy. This energy is harnessed to produce electricity. The efficiency of this process relies heavily on understanding the mechanisms of nuclear transition and how different materials behave under various conditions. As scientists continue to explore the potential of nuclear energy, the importance of mastering nuclear transition becomes increasingly evident.Moreover, nuclear transition is not limited to just fission. Nuclear fusion, which is the process that powers the sun, involves the merging of light nuclei to form heavier nuclei, also releasing vast amounts of energy. Researchers are actively working on harnessing fusion as a clean and virtually limitless energy source. The challenges associated with achieving controlled nuclear transition through fusion are immense, but the potential benefits make it a highly pursued area of study.In addition to its applications in energy and medicine, nuclear transition has implications in understanding the fundamental forces of nature. The study of how nuclei transition between different states can provide insights into the strong nuclear force, one of the four fundamental forces in physics. By examining nuclear transition, physicists can gain a deeper understanding of atomic structure and the interactions that govern matter at the most basic level.In conclusion, the term nuclear transition encompasses a variety of processes that are essential for advancements in technology, medicine, and our understanding of the universe. As we continue to delve into the complexities of nuclear reactions and their applications, the significance of mastering nuclear transition cannot be overstated. It is a key area of research that holds the promise of revolutionizing how we harness energy and treat diseases, while also expanding our comprehension of the physical world around us.

“核转变”这一概念指的是原子核内发生的变化。这可能涉及各种过程，如核衰变、裂变和聚变。理解核转变在核物理学、医学和能源生产等领域至关重要。例如，在核医学中，核转变在使用放射性同位素进行诊断和治疗中发挥着重要作用。当放射性同位素经历核转变时，它会发出可以被成像设备检测到的辐射，从而使医生能够可视化内部器官并识别异常。在能源生产领域，核转变是核反应堆运行的基础。在核裂变过程中，重核分裂成较轻的核，释放出大量能量。这种能量被用来生产电力。这个过程的效率在很大程度上依赖于对核转变机制的理解，以及不同材料在不同条件下的表现。随着科学家们继续探索核能的潜力，掌握核转变的重要性愈加显著。此外，核转变不仅限于裂变。核聚变，即太阳的能量来源，涉及轻核的合并形成重核，同样释放出巨量能量。研究人员正在积极努力利用聚变作为一种清洁且几乎无限的能源。实现受控的核转变聚变面临巨大挑战，但潜在的好处使其成为一个高度追求的研究领域。除了在能源和医学中的应用外，核转变还对理解自然的基本力量有影响。研究核如何在不同状态之间转变可以提供对强核力的深入理解，强核力是物理学中的四种基本力量之一。通过考察核转变，物理学家可以更深入地理解原子结构及支配物质的相互作用。总之，术语核转变涵盖了一系列对技术、医学进步以及我们对宇宙理解至关重要的过程。随着我们继续深入研究核反应及其应用，掌握核转变的重要性不容小觑。这是一个关键的研究领域，承诺将彻底改变我们如何利用能源和治疗疾病，同时也扩展我们对周围物理世界的理解。