4.3 Hazards and uses of radioactive emissions and background radiation (Triple) Flashcards
Give four sources of background radiation
● Rocks
● Cosmic rays from space
● Nuclear weapons testing
● Nuclear accidents
How should background radiation be dealt with in calculations?
The background count should be subtracted from any readings before calculations (half-life etc.) are attempted.
What is the unit used to measure radiation dosage?
Sieverts (Sv)
How many millisieverts equal one sievert?
1000 millisieverts = 1 sievert
Why might the radiation dosage that different people experience differ?
Some occupations involve working with radiation. Background radiation differs with location due to things such as the locality of nuclear power stations or radiation related testing.
What factor determines how dangerous a particular radioactive isotope is?
The half-life of the isotope
Why are isotopes with long half-lives particularly harmful?
They remain radioactive for much longer periods of time. They must be stood in specific ways to avoid humans and the environment from being exposed to radiation for too long
State two uses of nuclear radiation in the field of medicine
● Examining of internal organs
● Controlling and destroying unwanted tissue
How is radiation used in sterilisation?
Gamma emitters are used to kill bacteria/parasites on equipment
Explain the process of radiotherapy
Gamma emitters direct gamma rays at the cancerous cells. The cancerous cells absorb the radiation and are killed.
How are medical tracers chosen?
They should have a short half-life and decay into a stable isotope which can be excreted.
They should only release gamma radiation since it is weakly ionising and can easily pass through body tissue without damaging it.
