Radioactive decay happens when an unstable nucleus changes into the nucleus of a more stable (different) element. We know that elements are defined by the number of protons in their nucleus so the only way for an atom to change into something else is by either increasing or decreasing the number of protons that it … Continue reading Alpha and Beta Nuclear Decay
EM Waves: Uses and Dangers
Different EM waves are used for different applications, which you are expected to be able to recall and explain. We will go through some of these uses in this article, which is unavoidably long as there is a lot of information to cover. Your exam preparation should therefore involve making summary notes from the wealth … Continue reading EM Waves: Uses and Dangers
Gamma Radiation
Of the three types of nuclear radiation discussed at GCSE level, gamma is definitely the unsung hero. Alpha and beta get plenty of limelight because they have both mass and charge, so they feature prominently in nuclear decay equations (as explained previously, here). But gamma radiation is a wave rather than a particle, so it … Continue reading Gamma Radiation
Radioactivity Summary
The test may be done but the learning doesn't stop! I've found a great summary of the basics that you need to know about radioactivity, courtesy of the Lawrence Berkeley National Laboratory. The crucial page is at https://www2.lbl.gov/abc/Basic.html but you may like to take a look at the entire ABC's of Nuclear Science section. For … Continue reading Radioactivity Summary
Irradiation and Contamination
There are two ways in which radioactive materials can affect the surrounding environment; irradiation and contamination. Understanding the differences between these two effects is important in terms of the precautions that must be taken when handling radioactive sources and also when storing radioactive waste. Irradiation refers to the transfer of energy (via ionising radiation) without … Continue reading Irradiation and Contamination
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