1. Introduction to Radiation: Definition of Terms
©Health Physics Society

2. Introduction to Radiation
Objectives
To provide useful information about radiation for interested individuals
To introduce basic concepts of radiation and radioactivity
To improve understanding of radiation – what it is and how it interacts

3. What Is Radiation?
Radiation is energy in the form of waves or moving subatomic particles.
A radionuclide is a radioactive element, man-made or from natural sources, with a specific atomic weight.

4. What Is Radioactivity?
Radioactivity is the property of some atomic nuclei of spontaneously emitting gamma rays or subatomic particles (e.g., alpha and beta particles).
Radioactive material is material that, by being present in a radiation environment, has become radioactive or is contaminated with radioactive materials (see radioactivity).

5. What Is Contamination?
Contamination is the presence of radioactive material anywhere it is not wanted – most commonly by adhering, or sticking to surfaces.
Decontamination is a process of removing the presence of radioactive materials from surfaces through cleaning and washing.

6. What Is Exposure?
Exposure is the act of (1) being exposed to a radiation source or (2) being irradiated.
Exposure rate is the amount of exposure or dose you are receiving per unit time (e.g., 1 mrem per hour).
To irradiate is the act of exposing someone or something to radiation. Irradiated food means food that was exposed to radiation.

7. Contamination versus Exposure

8. External Exposure – Contamination –
Whole-body or partial-body (no radiation hazard to emergency staff)
Contamination –
External radioactive material: on the skin
Internal radioactive material: inhaled, swallowed, absorbed through skin or wounds
External
Exposure
Internal
Contamination
11. Types of Radiation Hazards
Patients who have only been exposed to the radiation from a radioactive source or a machine, such as an x-ray machine or a linear accelerator, are not contaminated and do not pose any radiation contamination or exposure potential for hospital personnel.
Radiation safety precautions are not needed for patients who have only been exposed and are not contaminated.
Patients with radioactive material on them or inside their bodies are said to be contaminated.
Contaminated patients require care in handling to effectively remove and control the contamination.
Analogy—You can think of radiation exposure and radioactive material in terms of a trip to the beach. Sand is like radioactivity. The sun is like radiation exposure. Once you go inside, you are not in the sun any longer and there is no more exposure (radiation stops). On the other hand, most of the sand came off when you walked off the beach, however, some sand remains on your skin until you physically remove it (brush or wash it off). The same is true for radioactivity contamination on the skin. A small amount may remain on the skin and need to be washed off.

9. Chocolate Chip Cookies
We can detect radioactivity…
Are the cookies emitting radiation?
Are the cookies radioactive?
Are the cookies contaminated?
Are the cookies being irradiated? 9

10. Chocolate Chip Cookies
No, the cookies are not emitting radiation.
No, the cookies are not radioactive.
No, the cookies are not contaminated.
Yes, the cookies are being irradiated – why? 10

11. Fiesta Ware The plate is glazed with uranium.
The uranium has the chemical form U3O8.
This form is called “yellowcake” because it is bright yellow in color.
Firing the plate in a kiln turns the color to orange. 11

12. Contamination versus Exposure
So, the cookies are exposed to the radiation emitted from the plate.
The radioactivity in the plate does not come off so the cookie is not contaminated.
Since the cookie is not contaminated, it is not radioactive.

13. What Is Half-Life?
Radiological or physical half-life is the amount of time it takes for half of the radioactivity in a material to be gone or to decay. The half-life of a radionuclide can be fractions of a second or up to millions of years.

14. What Is Half-Life?
Biological half-life refers to elimination of internal radioactivity by biological processes.
Effective half-life is a combination of radioactive decay and biological elimination.

15. What Is Half-Life?
As an example, the half-life of iodine-131 is eight days. Starting with 10 radioactivity units, after eight days there are five radioactivity units left. After eight more days (16 total), there are 2½ radioactivity units left, or a fourth of what we started with.

16. What Is Ionization?
Ionization is the process by which a neutral atom (an atom with no charge) gains a positive or negative charge.
The most common use of the word radiation refers to ionizing radiation. Ionizing radiation has enough energy to ionize atoms or molecules while nonionizing radiation does not.

17. Why Are Elements Radioactive?
Unstable Nucleus
Has excess internal energy
Wants to return to ground state (become stable)
Becomes stable by getting rid of the energy
Gives off the energy as ionizing radiation

18. Pictures are compliments of John W. Poston, Sr
Pictures are compliments of John W. Poston, Sr., PhD, and Paul Frame, PhD.