mass radiation

简明释义

质量辐射

英英释义

例句

1.Scientists are studying the effects of mass radiation 大规模辐射 on human health and the environment.

科学家们正在研究大规模辐射 mass radiation对人类健康和环境的影响。

2.Emergency services are trained to respond to incidents involving mass radiation 大规模辐射 to ensure public safety.

紧急服务部门经过培训，以应对涉及大规模辐射 mass radiation的事件，以确保公众安全。

3.The facility has strict protocols to minimize risks associated with mass radiation 大规模辐射 events.

该设施有严格的协议，以最小化与大规模辐射 mass radiation事件相关的风险。

4.During the drill, the team practiced evacuation procedures in case of mass radiation 大规模辐射 release.

在演习中，团队练习了在发生大规模辐射 mass radiation泄漏时的疏散程序。

5.The government issued a warning about potential mass radiation 大规模辐射 exposure in the area following the nuclear accident.

政府在核事故后发出关于该地区可能发生的大规模辐射 mass radiation暴露的警告。

作文

In the field of physics and environmental science, the term mass radiation refers to the emission of energy in the form of particles or electromagnetic waves from a large amount of radioactive material. This phenomenon can occur naturally, such as in the case of radon gas seeping from the ground, or it can be the result of human activities, such as nuclear power generation and atomic bomb explosions. Understanding mass radiation is crucial for assessing its impact on public health and the environment.The effects of mass radiation can be profound and far-reaching. When large quantities of radiation are released into the atmosphere, they can contaminate air, water, and soil, leading to serious health risks for living organisms. For instance, exposure to high levels of radiation can cause acute radiation syndrome, which manifests through symptoms such as nausea, vomiting, hair loss, and even death in severe cases. Long-term exposure to lower levels of radiation can increase the risk of developing cancer, genetic mutations, and other chronic health issues.One of the most notable instances of mass radiation occurred during the Chernobyl disaster in 1986. A reactor meltdown resulted in the release of vast amounts of radioactive isotopes into the environment. This event not only caused immediate health problems for workers and emergency responders but also led to long-term ecological consequences in the surrounding areas. The region remains largely uninhabitable due to the lingering effects of mass radiation, illustrating the potential dangers associated with uncontrolled nuclear reactions.In contrast, controlled applications of mass radiation can have beneficial uses. For example, in medicine, radiation therapy is a common treatment for cancer. By targeting tumors with high doses of radiation, doctors can effectively destroy cancerous cells while minimizing damage to surrounding healthy tissue. This highlights the dual nature of mass radiation: while it poses significant risks, it also offers valuable applications when used responsibly.To mitigate the dangers of mass radiation, various safety measures and regulations have been established. Organizations such as the International Atomic Energy Agency (IAEA) work to promote safe practices in the use of nuclear technology. These include strict guidelines for the storage and disposal of radioactive materials, regular monitoring of radiation levels, and emergency preparedness plans to respond to potential accidents.Public awareness and education about mass radiation are also essential components of safety. Communities near nuclear facilities must be informed about the risks and have access to information on how to protect themselves in the event of a radiation leak. Through education, individuals can make informed decisions regarding their health and safety.In conclusion, mass radiation is a complex and multifaceted topic that encompasses both risks and benefits. While it poses significant threats to human health and the environment, understanding its mechanisms and effects can lead to safer applications and better preparedness for potential emergencies. As society continues to advance in nuclear technology, ongoing research and education will be vital in ensuring that the benefits of mass radiation can be harnessed while minimizing its dangers.

在物理学和环境科学领域，术语mass radiation指的是来自大量放射性物质的粒子或电磁波能量的释放。这种现象可以自然发生，例如氡气从地下渗出，或者是人类活动的结果，如核电发电和原子弹爆炸。理解mass radiation对于评估其对公共健康和环境的影响至关重要。mass radiation的影响可能是深远的。当大量辐射释放到大气中时，它们可能会污染空气、水和土壤，导致生物体面临严重的健康风险。例如，暴露于高水平的辐射中可能会导致急性辐射综合症，其症状包括恶心、呕吐、脱发，甚至在严重情况下导致死亡。长期暴露于较低水平的辐射中可能会增加罹患癌症、基因突变和其他慢性健康问题的风险。mass radiation最显著的实例之一发生在1986年的切尔诺贝利灾难中。反应堆熔毁导致大量放射性同位素释放到环境中。此事件不仅给工作人员和急救人员带来了立即的健康问题，还导致了周边地区长期的生态后果。由于mass radiation的持续影响，该地区仍然大部分无人居住，说明了与失控核反应相关的潜在危险。相对而言，受控应用的mass radiation可以具有有益的用途。例如，在医学中，放射治疗是治疗癌症的一种常见方法。通过对肿瘤进行高剂量辐射，医生可以有效地摧毁癌细胞，同时尽量减少对周围健康组织的损害。这突显了mass radiation的双重性质：虽然它带来了重大风险，但在负责任地使用时也提供了有价值的应用。为了减轻mass radiation的危险，各种安全措施和法规已经建立。国际原子能机构（IAEA）等组织致力于促进核技术安全实践。这些措施包括对放射性材料的储存和处置的严格指导方针、定期监测辐射水平以及应对潜在事故的应急准备计划。公众对mass radiation的意识和教育也是安全的重要组成部分。靠近核设施的社区必须了解风险，并获取有关在辐射泄漏事件中如何保护自己的信息。通过教育，个人可以就自己的健康和安全做出明智的决定。总之，mass radiation是一个复杂而多面的主题，既包含风险又包含利益。虽然它对人类健康和环境构成重大威胁，但理解其机制和影响可以导致更安全的应用和对潜在紧急情况的更好准备。随着社会在核技术方面的不断进步，持续的研究和教育将在确保能够利用mass radiation的好处的同时，尽量减少其危险方面发挥至关重要的作用。