Dangers of Radiation (Edexcel GCSE Physics)
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Dangers of Radiation
Ionising radiation can damage human cells and tissues
This could be in terms of:
Tissue damage
Mutations
Tissue Damage
Radiation is effectively used to destroy cancerous tumour cells
However, it can cause damage to healthy tissue if it is not properly targeted
This is mostly from high-energy radiation such as gamma rays and X-rays
Mutations
If the atoms that make up a DNA strand are ionised then the DNA strand can be damaged
If the DNA is damaged then the cell may die, or the DNA may be mutated when it reforms
If a mutated cell is able to replicate itself then a tumour may form
This is an example of cancer, which is a significant danger of radiation exposure
Diagram showing the damage caused to DNA by ionising radiation. Sometimes the cell is able to successfully repair the DNA, but incorrect repairs can cause a mutation
Acute radiation exposure can have other serious symptoms:
It can cause skin burns, similar to severe sunburn
Radiation can reduce the amount of white blood cells in the body, making a person more susceptible to infections by lowering their immune system
Because of this, it is very important to handle radioactive sources carefully
Handling Radiation Safely
To mitigate the risks of radiation exposure, there are some safe practices that should be used:
Radioactive sources should be kept in a shielded container when not in use, for example, a lead-lined box
Radioactive materials should only be handled when wearing gloves, and with tongs to increase the distance from them
It may be appropriate to wear protective clothing to prevent the body becoming contaminated
The time that a radioactive source is being used for should be limited
Regulating Exposure
Because of the harmful effects of radiation, it is important to regulate the exposure of humans to radiation
The amount of radiation received by a person is called the dose and is measured in sieverts (Sv)
One sievert is a very big dose of radiation
It would cause acute radiation poisoning
People would normally receive about 3 mSv (0.003 Sv) in one year
To protect against over-exposure, the dose received by different activities is measured
A dosemeter measures the amount of radiation in particular areas and is often worn my radiographers, or anyone working with radiation
A dosemeter, or radiation badge, can be worn by a person working with radiation in order to keep track of the amount of radiation they are receiving
Differences in Exposure
The amount of radiation that a person receives is affected by a person’s occupation, lifestyle or location
Some areas around the world have higher background radiation because they are closer to sources of radiation
People that work with nuclear radiation receive more radiation
The UK limit for nuclear industry employees is 20 mSv in one year
The diagram below compares the dose received by some different activities
All living things emit a small amount of radiation: the amount of radiation within a banana is tiny, and not at all dangerous!
Worked Example
A student plans to use a gamma source to conduct an experiment. List four things that the student should do in order to minimise the risk to themselves when using the source.
Answer:
Any four from:
Keep the source in a lead lined container until the time it is needed
Use tongs to move the source, rather than handling it directly
The source should be kept at as far a distance from the student as possible during the experiment
The time that the source is being used should be minimised
After the experiment the student should wash their hands
The date and the time that the radiation has been used for should be recorded
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