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Radiation Information Network's Radiation and Us

Radiation all around us

Humans have been exposed to radiation from natural sources since the dawn of time. The sources include the ground we walk on, the air we breath, the food we eat and the solar system on the whole. Everything in our world contains small amounts of radioactive atoms like Potassium 40, Radium 226 and Radon 222. These are either left over from the creation of the world (like Uranium and Radium) or made by interactions with cosmic radiation (like Carbon 14 and Tritium). The Earth is constantly in a flux of cosmic radiation from outer space. These natural sources of radiation make up approximately 82 percent of the average annual dose to the US public.

To find definitions of terms you're not familiar with, look on our glossary page.

The following was developed by the National Council on Radiation Protection and Measurement (NCRP 93) and is a breakdown of the sources of radiation for the population of the United States. These numbers are averages and were obtained by estimating the total dose for the US, and dividing by the number of people in the US. This then is a numerical average.

In a more recent report, the NCRP has determined the numerical average annual dose to people in the US has increased to over 620 mrem. While this might sound frightening, the reason for the increase was due to advances and uses of radiation in medicine. And the vast majority of these increased doses are in persons with significant health problems, where they maybe receiving multiple CT scans. So, for the average person, their annual radiation dose has not increased, and remains in the range of 300-360 mrem. Many things can cause an increase in annual dose besides medical exposures, such as occupation, location of residence, flying, smoking, hobbies, etc.

Annual estimated average effective dose equivalent received by a member of the population of the United States.
Average annual effective dose equivalent
Source NCRP 95 1NCRP 160 2
(µSv) (mrem) (µSv) (mrem)
Inhaled (Radon and Decay Products) 2000 200 2290 229
Other Internally Deposited Radionuclides 390 39 310 31
Terrestrial Radiation 280 28 190 19
Cosmic Radiation 270 27 270 27
Rounded total from natural source 3000 300 3100 310
Rounded total from artificial Sources (Medical, industrial, etc) 600 60 3100 310
Total 3600 360 6200 620
1 NCRP 95 published in 1987
2 NCRP 160 published in 2006

Or, this can perhaps be more easily seen with a graph (6K)

You can also calculate your own background radiation from this EPA website. Also, ORAU has a great set of pictures with info on consumer products.

Further more, we also have a list of doses from other sources for comparison.


Natural Radiation

Everyone by now has probably heard of radon. Radon comes from the decay (change) of Uranium, a natural element. Uranium decays through a long chain of radionuclides that includes radon. Radon is a noble gas, not chemically active so it migrates through porous materials like the ground and your house's foundation. The radon itself has a small chance of decay as you breath it in and out. Most of our actual dose comes from the decay products of radon, sometimes called radon daughters or radon progeny. These radon progeny are particles not gases, and can be deposited in your lungs as you breath. There they have some chance of decaying before your body can get rid of them, resulting in a radioactive dose.

For more information on radon, try the Radon page.

There are several other naturally occurring radioactive nuclides. Most notable are Carbon-14 (C-14) and Potassium 40 (K-40). They are made by cosmic ray interactions and eventually make there way into our food chain. Once ingested, they can decay and give us an internal dose. All living organic material has a constant ratio of carbon 14 to non-radioactive carbon 12. Once dead, the organic material stops taking in carbon. Therefore, by measuring that ratio of C-14 to C-12 found in organic archeological items, the appropriate time since death can be determined. This is what is known as carbon dating.

For more on Natural Radioactivity, see the Radioactivity in Nature page.

Here's just a sampling of radioactive materials...and the many ways they improve lives. Also, here is the HPS factsheet on radioactive consumer products.


Radiation in the home

There are some small sources of radiation in the home. Your television set accelerates electrons to make the picture on the screen, and produces a few low energy x-rays. Smoke detectors contain small sources in them. These sources emit radiation that are easily stopped even by smoke, and that way detect the presence of smoke. The sources of radiation around the home, not counting natural sources like radon, tend to make up a small fraction of the background dose.

For more info, see the EPA website for Sources of Radiation.

Radiation in the work place

Persons in many occupations encounter radiation above normal background as a natural part of their jobs. Some of these occupations include doctors, nurses, radiographers, astronauts, dental hygienists, researchers, pharmacists, welders, airplane and jet crews. The doses received can be up to several rem of exposure over the course of a year.


Medical uses of radiation

Medical uses of radiation are roughly broken into therapy and diagnosis. Therapy is primarily used for tumor killing of cancer, but in the past has been used for other treatments. Most of the dose is received in a small area of the body. Diagnosis runs from fairly routine x rays to injections of radioactive material and imaging. These doses can be several hundred mrem for diagnosis and up to several hundred rem locally for treatments. The physician who prescribes radiation treatments and diagnosis weighs the risk of the radiation with the benefit of the treatment.


Who is in charge

Ultimately, you are. All of the sources of radiation, other than natural, are regulated by laws passed by Congress. Like any other law, you have your right to voice your views and opinions about it. The regulations that control the use of radioactivity in our country are based on recommendations of science organizations like the International Commission on Radiological Protection (ICRP), the National Council on Radiation Protection (NCRP), the International Atomic Energy Agency (IAEA), the United Nations (UN), and the Health Physics Society (HPS). Governing bodies like the Environmental Protection Agency (EPA), the Nuclear Regulatory Commission (NRC), the Department of Energy (DOE), and the Food and Drug Administration (FDA) review these recommendations and propose the regulations that industry and government must follow. These are then passed by Congress, if found to be acceptable, and published in the Code of Federal Regulations (CFRs).

To see some of the regulations, look at our Law, Orders and Directives page or our Federal agency page.


Additional Information


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