hydrogen bomb

简明释义

氢弹

英英释义

例句

1.During the Cold War, both superpowers tested their hydrogen bombs 氢弹 to showcase their military strength.

在冷战期间，两个超级大国测试了他们的氢弹以展示军事力量。

2.Scientists believe that the energy released by a hydrogen bomb 氢弹 is thousands of times greater than that of an atomic bomb.

科学家认为，氢弹释放的能量是原子弹的数千倍。

3.The decision to use a hydrogen bomb 氢弹 in warfare has been a topic of intense debate among military strategists.

在战争中使用氢弹的决定一直是军事战略家们激烈争论的话题。

4.North Korea's testing of a hydrogen bomb 氢弹 raised global concerns about nuclear proliferation.

北韩试验氢弹引发了全球对核扩散的担忧。

5.The development of the hydrogen bomb 氢弹 marked a significant advancement in nuclear weaponry.

氢弹的研发标志着核武器技术的重大进步。

作文

The development of nuclear weapons has significantly altered the landscape of global politics and warfare. Among these weapons, the hydrogen bomb (氢弹) stands out as one of the most powerful and destructive devices ever created by humankind. Unlike atomic bombs, which rely on nuclear fission, the hydrogen bomb (氢弹) utilizes nuclear fusion to release an immense amount of energy. This process involves combining light atomic nuclei, such as hydrogen isotopes, to form heavier nuclei, resulting in a release of energy that can be millions of times more powerful than conventional explosives.The origins of the hydrogen bomb (氢弹) can be traced back to the early 20th century when scientists began to unravel the mysteries of atomic structure and nuclear reactions. The first successful test of a hydrogen bomb (氢弹) occurred in 1952, conducted by the United States. This event marked a turning point in the arms race during the Cold War, as it demonstrated the devastating potential of thermonuclear weapons and prompted other nations, including the Soviet Union, to develop their own capabilities.One of the most alarming aspects of the hydrogen bomb (氢弹) is its ability to cause widespread destruction and loss of life. A single detonation can obliterate entire cities, leaving nothing but rubble and ash in its wake. The blast wave, intense heat, and subsequent radiation can result in catastrophic consequences for both human populations and the environment. The sheer magnitude of destruction associated with the hydrogen bomb (氢弹) raises ethical questions about the morality of possessing such weapons and whether they serve as a deterrent or a threat to global security.In addition to the immediate effects of a hydrogen bomb (氢弹) explosion, there are long-term implications for survivors and the environment. Radiation exposure can lead to severe health issues, including cancer and genetic mutations, affecting future generations. Moreover, the fallout from a nuclear explosion can contaminate land and water sources, posing significant challenges for recovery and rehabilitation efforts.The existence of the hydrogen bomb (氢弹) has also influenced international relations and diplomacy. Countries that possess nuclear capabilities often engage in strategic negotiations to prevent the proliferation of such weapons. Treaties like the Treaty on the Non-Proliferation of Nuclear Weapons (NPT) aim to limit the spread of nuclear weapons and promote disarmament. However, the effectiveness of these agreements is frequently questioned, especially in light of ongoing tensions between nuclear-armed states.In conclusion, the hydrogen bomb (氢弹) represents a profound challenge to humanity. While it serves as a powerful tool of deterrence, its potential for destruction raises urgent questions about our responsibility to manage and eventually eliminate such weapons. As we move forward, it is crucial for nations to engage in dialogue and cooperation to ensure that the horrors of nuclear warfare remain a relic of the past rather than a looming threat for the future. The legacy of the hydrogen bomb (氢弹) is one that we must confront with caution and a commitment to peace.

核武器的发展显著改变了全球政治和战争的格局。在这些武器中，氢弹（hydrogen bomb）作为人类创造的最强大和毁灭性的装置之一，脱颖而出。与依赖核裂变的原子弹不同，氢弹（hydrogen bomb）利用核聚变释放出巨大的能量。这个过程涉及将轻原子核（如氢同位素）结合成更重的核，从而释放出数百万倍于常规炸药的能量。氢弹（hydrogen bomb）的起源可以追溯到20世纪初，当时科学家们开始揭示原子结构和核反应的奥秘。美国在1952年进行的第一次成功的氢弹（hydrogen bomb）试验，标志着冷战军备竞赛的一个转折点，因为它展示了热核武器的毁灭潜力，并促使包括苏联在内的其他国家发展自己的能力。氢弹（hydrogen bomb）最令人担忧的方面之一是其造成广泛破坏和生命损失的能力。一次引爆可以摧毁整个城市，只留下废墟和灰烬。冲击波、强烈的热量和随之而来的辐射可能导致对人类和环境的灾难性后果。与氢弹（hydrogen bomb）爆炸相关的毁灭性规模引发了关于拥有这种武器的道德问题，以及它们是否作为威慑或对全球安全的威胁。除了氢弹（hydrogen bomb）爆炸的直接影响外，对幸存者和环境的长期影响也不容忽视。辐射暴露可能导致严重的健康问题，包括癌症和基因突变，影响未来几代人。此外，核爆炸后的放射性尘埃可能污染土地和水源，为恢复和重建工作带来重大挑战。氢弹（hydrogen bomb）的存在也影响了国际关系和外交。拥有核能力的国家通常进行战略谈判，以防止此类武器的扩散。《不扩散核武器条约》（NPT）等条约旨在限制核武器的传播并促进裁军。然而，特别是在核武装国家之间持续紧张关系的背景下，这些协议的有效性常常受到质疑。总之，氢弹（hydrogen bomb）代表了人类面临的深刻挑战。虽然它作为一种强大的威慑工具，但其毁灭潜力引发了关于我们管理和最终消除此类武器的责任的紧迫问题。随着我们向前推进，各国必须进行对话与合作，以确保核战争的恐怖成为过去的遗物，而不是未来的迫在眉睫的威胁。氢弹（hydrogen bomb）的遗产是我们必须谨慎面对并致力于和平的遗产。