atomic bombardment
简明释义
原子轰炸;原子轰击
英英释义
A process in which atomic particles, such as neutrons or protons, are directed at a target material, often resulting in nuclear reactions. | 一种将原子粒子(如中子或质子)指向目标材料的过程,通常导致核反应的发生。 |
例句
1.In nuclear physics, atomic bombardment is a crucial method for initiating nuclear reactions.
在核物理学中,原子轰击是引发核反应的重要方法。
2.The scientists conducted experiments to study the effects of atomic bombardment on various materials.
科学家们进行实验,以研究原子轰击对各种材料的影响。
3.The documentary explored the devastating consequences of atomic bombardment on civilian populations.
这部纪录片探讨了原子轰击对平民的毁灭性后果。
4.During World War II, atomic bombardment changed the course of history in unprecedented ways.
在第二次世界大战期间,原子轰击以空前的方式改变了历史的进程。
5.The researchers published a paper detailing the results of their findings on atomic bombardment and its implications.
研究人员发表了一篇论文,详细说明了他们对原子轰击及其影响的研究结果。
作文
The concept of atomic bombardment refers to the process of bombarding a target material with atoms, particularly in the context of nuclear physics and chemistry. This phenomenon is not only fundamental in scientific research but also has historical significance, especially during the mid-20th century. The most notable instance of atomic bombardment occurred during World War II when atomic bombs were dropped on Hiroshima and Nagasaki, leading to unprecedented destruction and loss of life. This event marked a pivotal moment in history, showcasing the devastating power of nuclear weapons and forever changing the landscape of warfare.In scientific terms, atomic bombardment can be used to induce nuclear reactions. When high-energy particles collide with atomic nuclei, they can cause various outcomes, including fission, fusion, or the emission of secondary particles. This principle is utilized in particle accelerators, which are essential tools in modern physics research. These accelerators allow scientists to explore the fundamental components of matter and the forces that govern their interactions.The implications of atomic bombardment extend beyond the realm of science. The ethical considerations surrounding its use in warfare raise important questions about humanity's responsibility towards the development and deployment of such powerful technologies. As we reflect on the past, it becomes clear that the consequences of atomic bombardment are profound and far-reaching. The bombings of Hiroshima and Nagasaki serve as stark reminders of the potential for human innovation to yield both incredible advancements and catastrophic destruction.In contemporary discussions, atomic bombardment is often linked to debates about nuclear proliferation and disarmament. Countries around the world grapple with the balance between national security and global safety. The legacy of atomic bombardment continues to influence international relations, as nations strive to prevent the spread of nuclear weapons while ensuring their own defense capabilities. The moral dilemmas associated with these discussions highlight the need for responsible governance and cooperative efforts towards peace.Furthermore, the scientific community is actively engaged in researching the applications of atomic bombardment in medicine and energy production. For instance, radiation therapy employs targeted atomic bombardment techniques to treat cancer, demonstrating the potential for positive outcomes derived from this powerful process. Similarly, nuclear reactors harness controlled atomic bombardment to generate electricity, providing a significant source of energy for many countries.In conclusion, the term atomic bombardment encapsulates a wide range of meanings, from its scientific applications to its historical context and ethical implications. Understanding this term requires a multifaceted approach that considers both the technological advancements it represents and the moral responsibilities that accompany its use. As we move forward, it is crucial to learn from the past and strive for a future where the benefits of atomic bombardment can be harnessed for the greater good, while minimizing the risks associated with its destructive potential.
“原子轰击”这一概念指的是用原子轰击目标材料的过程,特别是在核物理和化学的背景下。这一现象不仅在科学研究中是基础性的,而且在历史上也具有重要意义,尤其是在20世纪中期。“原子轰击”的最显著实例发生在第二次世界大战期间,当时原子弹被投放在广岛和长崎,导致前所未有的破坏和生命损失。这一事件标志着历史上的一个关键时刻,展示了核武器的毁灭性力量,并永远改变了战争的格局。在科学术语中,“原子轰击”可用于诱导核反应。当高能粒子与原子核碰撞时,它们可以导致各种结果,包括裂变、聚变或次级粒子的发射。这个原理被应用于粒子加速器,这些加速器是现代物理研究的重要工具。这些加速器使科学家能够探索物质的基本组成部分及其相互作用的力量。“原子轰击”的影响不仅限于科学领域。围绕其在战争中使用的伦理考量引发了人类对开发和部署如此强大技术的责任感的重要问题。当我们反思过去时,显然“原子轰击”的后果是深远的。广岛和长崎的轰炸成为人类创新潜力的严峻提醒,既带来了令人难以置信的进步,也造成了灾难性的破坏。在当代讨论中,“原子轰击”常常与核扩散和裁军的辩论联系在一起。世界各国在国家安全与全球安全之间努力寻求平衡。“原子轰击”的遗产继续影响国际关系,各国努力防止核武器的扩散,同时确保自身的防御能力。这些讨论中的道德困境突显了负责任治理和合作追求和平的必要性。此外,科学界正积极参与研究“原子轰击”在医学和能源生产中的应用。例如,放射治疗采用靶向“原子轰击”技术来治疗癌症,展示了这一强大过程所带来的积极结果的潜力。同样,核反应堆利用受控的“原子轰击”来发电,为许多国家提供了重要的能源来源。总之,“原子轰击”这一术语包含了广泛的含义,从其科学应用到历史背景和伦理影响。理解这个术语需要一种多方面的方法,考虑到它所代表的技术进步以及伴随而来的道德责任。随着我们向前发展,重要的是从过去中学习,努力创造一个能够为更大利益利用“原子轰击”的未来,同时将与其毁灭性潜力相关的风险降到最低。
相关单词
