Radioactivity results in risk - this could be a risk of death, or a risk of developing cancer. In physics, risk is what you expect, on average, to happen:
So, if there is a 1 in 500 chance that someone gets run over by a car when crossing the road, the risk involved in allowing 500 people to cross the road is one death.
Absorbed dose is measured in grays, commonly denoted Gy. One gray is defined as one joule absorbed per. kilogram. You may be expected to use the equation to calculate absorbed dose in terms of numbers of particles with a given mass. If someone is exposed to a certain activity (particles per. second) over a period of time, the absorbed dose accumulates.
Absorbed dose does not give a full picture of the potential harm radioactivity can do to you. Different types of radiation do different amounts of damage. Absorbed dose equivalent, measured in sieverts (denoted Sv) attempts to compensate. To calculate the dose equivalent, multiply the dose in grays by the quality factor of the particles absorbed. These quality factors are given in the table below.
|Radiation Type||Quality Factor|
|photons and leptons||1|
|neutrons with an energy > 10 MeV or < 10keV, protons||5|
|neutrons with an energy between 10 and 100 keV, or between 2 and 20 MeV||10|
|neutrons with an energy between 100 keV and 2 MeV and atomic nuclei||20|
1. A mobile phone emits electromagnetic radiation. 1.2 watts of power are absorbed per. kilogram. Assuming that the radiation is absorbed uniformly across a 5kg head, what dose of radiation would be delivered to the head when making a 10-minute telephone call?
2. What dose equivalent does this correspond to?
3. How many nuclei are there in 1 mg of Americium-241?
4. A ham sandwich becomes contaminated with 1 μg of Americium-241, and is eaten by an 80kg person. The half-life of Americium-241 is 432 years. Given that Americium-241 gives off 5.638 MeV alpha particles, how long would it be before a dose equivalent of 6 Sv is absorbed, making death certain?
5. What assumptions have you made?