atomic radiation

简明释义

原子辐射

英英释义

例句

1.Studies have shown that long-term exposure to atomic radiation (原子辐射) can increase the risk of cancer.

研究表明，长期暴露于原子辐射（原子辐射）会增加癌症风险。

2.After the accident, the government monitored the levels of atomic radiation (原子辐射) in the surrounding areas.

事故发生后，政府监测了周边地区的原子辐射（原子辐射）水平。

3.The safety report highlighted the potential dangers of atomic radiation (原子辐射) in medical imaging.

安全报告强调了医学影像中原子辐射（原子辐射）的潜在危险。

4.The workers at the nuclear power plant must wear protective gear to shield themselves from atomic radiation (原子辐射).

核电站的工人必须穿戴防护装备，以保护自己免受原子辐射的影响。

5.Children are particularly vulnerable to the effects of atomic radiation (原子辐射), so precautions must be taken.

儿童对原子辐射（原子辐射）的影响特别敏感，因此必须采取预防措施。

作文

Atomic radiation is a term that refers to the energy emitted from the nucleus of an atom as it undergoes decay. This process can result in the release of particles or electromagnetic waves, which can have significant effects on both living organisms and the environment. Understanding atomic radiation (原子辐射) is crucial in various fields, including medicine, nuclear energy, and environmental science.In medicine, atomic radiation (原子辐射) plays a pivotal role in diagnostic imaging and cancer treatment. Techniques such as X-rays and PET scans utilize this form of radiation to create images of the inside of the body, allowing doctors to diagnose conditions accurately. Moreover, certain types of atomic radiation (原子辐射) are used in targeted therapies for cancer, where radioactive isotopes are directed towards tumor cells to destroy them without harming surrounding healthy tissue.However, the use of atomic radiation (原子辐射) is not without risks. Exposure to high levels of radiation can lead to severe health issues, including radiation sickness, increased cancer risk, and genetic mutations. Therefore, safety protocols must be strictly followed in medical settings to protect both patients and healthcare providers from unnecessary exposure.In the context of nuclear energy, atomic radiation (原子辐射) is a byproduct of nuclear fission, the process that powers nuclear reactors. While nuclear energy is a potent source of electricity with low greenhouse gas emissions, managing the atomic radiation (原子辐射) produced during fission is critical. Nuclear power plants are designed with multiple safety systems to contain radiation and prevent leaks. The challenges of disposing of nuclear waste, which remains radioactive for thousands of years, also highlight the importance of understanding atomic radiation (原子辐射) and its long-term impacts on the environment.Environmental scientists study atomic radiation (原子辐射) to assess its effects on ecosystems. For instance, areas affected by nuclear accidents, such as Chernobyl and Fukushima, have shown how atomic radiation (原子辐射) can disrupt wildlife and plant life. Research indicates that certain species may adapt to radiation exposure over time, but the overall impact on biodiversity remains a significant concern.Public perception of atomic radiation (原子辐射) is often shaped by historical events, such as the atomic bombings during World War II and nuclear disasters. These events have instilled fear and skepticism towards nuclear technology, despite its potential benefits. Education and transparent communication about the nature of atomic radiation (原子辐射), its uses, and the safety measures in place are essential to alleviate public concerns.In conclusion, atomic radiation (原子辐射) is a complex phenomenon with both beneficial applications and potential hazards. Its role in medicine, energy, and environmental science underscores the need for a comprehensive understanding of radiation principles. As technology advances, ongoing research and dialogue will be vital in navigating the challenges and opportunities presented by atomic radiation (原子辐射). By fostering informed discussions, society can better harness the advantages of atomic radiation (原子辐射) while minimizing its risks.

原子辐射是指原子核在衰变过程中释放的能量。这个过程可能导致粒子或电磁波的释放，这对生物体和环境都有显著影响。理解原子辐射（atomic radiation）在医学、核能和环境科学等多个领域至关重要。在医学中，原子辐射（atomic radiation）在诊断成像和癌症治疗中发挥着重要作用。X光和正电子发射断层扫描（PET）等技术利用这种辐射形式来创建身体内部的图像，从而使医生能够准确诊断病情。此外，某些类型的原子辐射（atomic radiation）也用于癌症的靶向治疗，其中放射性同位素被定向到肿瘤细胞，以摧毁它们而不损害周围健康组织。然而，使用原子辐射（atomic radiation）并非没有风险。高水平的辐射暴露可能导致严重的健康问题，包括辐射病、癌症风险增加和基因突变。因此，医疗环境中必须严格遵循安全协议，以保护患者和医务人员免受不必要的辐射暴露。在核能背景下，原子辐射（atomic radiation）是核裂变的副产品，而核裂变是为核反应堆提供动力的过程。虽然核能是一种电力强大的来源，且温室气体排放较低，但管理裂变过程中产生的原子辐射（atomic radiation）至关重要。核电站设计了多重安全系统，以控制辐射并防止泄漏。处理核废料的挑战也突显了理解原子辐射（atomic radiation）及其对环境的长期影响的重要性。环境科学家研究原子辐射（atomic radiation），以评估其对生态系统的影响。例如，切尔诺贝利和福岛等核事故影响的地区表明，原子辐射（atomic radiation）可以干扰野生动物和植物的生长。研究表明，某些物种可能会随着时间的推移适应辐射暴露，但对生物多样性的整体影响仍然是一个重大关切。公众对原子辐射（atomic radiation）的看法往往受到历史事件的影响，例如第二次世界大战期间的原子弹轰炸和核灾难。这些事件在社会中造成了对核技术的恐惧和怀疑，尽管其潜在的好处依然存在。关于原子辐射（atomic radiation）的性质、用途及安全措施的教育和透明沟通对于缓解公众担忧至关重要。总之，原子辐射（atomic radiation）是一个复杂的现象，具有有益的应用和潜在的危害。它在医学、能源和环境科学中的作用强调了全面理解辐射原理的必要性。随着技术的进步，持续的研究和对话在应对原子辐射（atomic radiation）带来的挑战和机遇方面将至关重要。通过促进知情讨论，社会可以更好地利用原子辐射（atomic radiation）的优势，同时最小化其风险。