Chapter 9 Nuclear Radiation

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Chapter 9 Nuclear Radiation 9.3 Radiation Measurement 9.4 Half-Life of a Radioisotope 9.5 Medical Applications Using Radioactivity Copyright © 2005 by Pearson Education, Inc. Publishing as Benjamin Cummings

Radiation Measurement A Geiger counter detects beta and gamma radiation. uses ions produced by radiation to create an electrical current.

Radiation Units Units of radiation include Curie - measures activity as the number of atoms that decay in one second. rad (radiation absorbed dose) - measures the radiation absorbed by the tissues of the body. rem (radiation equivalent) - measures the biological damage caused by different types of radiation.

Units of Radiation Measurement

Exposure to Radiation Exposure to radiation occurs from TABLE 9.6 Exposure to radiation occurs from naturally occurring radioisotopes. medical and dental procedures. air travel, radon, and smoking cigarettes. Copyright © 2005 by Pearson Education, Inc. Publishing as Benjamin Cummings

Half-Life The half-life of a radioisotope is the time for the radiation level to decrease (decay) to one-half of the original value.

Decay Curve A decay curve shows the decay of radioactive atoms and the remaining radioactive sample. Copyright © 2005 by Pearson Education, Inc. Publishing as Benjamin Cummings

Half-Lives of Some Radioisotopes that are naturally occurring tend to have long half-lives. used in nuclear medicine have short half-lives. Half-Lives of Some Radioisotopes Radioisotope Half-life 14C 5730 yr 40K 1.3 x 109 yr 226Ra 1600 yr 238U 4.5 x 109 yr 51Cr 28 days 131I 8 days 59Fe 46 days 99mTc 6.0 hr Naturally Occurring Medical Uses

Half-Life Calculations In one half-life, 40 mg of a radioisotope decays to 20 mg. After two half-lives, 10 mg of radioisotope remain. 40 mg x 1 x 1 = 10 mg 2 2 1 half-life 2 half-lives Initial 40 mg 20 mg 10 mg

Learning Check The half life of 123I is 13 hr. How much of a 64 mg sample of 123I is left after 26 hours? 1) 32 mg 2) 16 mg 3) 8 mg

Solution 2) 16 mg STEP 1 Given 64 g; 26 hr; 13 hr/half-life STEP 2 Plan 26 hours Number of half-lives STEP 3 Equalities 1 half-life = 13 hr STEP 4 Set Up Problem Number of half-lives = 26 hr x 1 half-life = 2 half-lives 13 hr 64 mg 32 mg 16 mg Half-life 13 hr 13 hr

Medical Applications Radioisotopes with short half-lives are used in nuclear medicine because they have the same chemistry in the body as the nonradioactive atoms. in the organs of the body, they give off radiation that exposes a photographic plate (scan) giving an image of an organ. Thyroid scan

Some Radioisotopes Used in Nuclear Medicine

Learning Check 1) 40K half-life 1.3 x 109 years Which of the following radioisotopes are most likely to be used in nuclear medicine? 1) 40K half-life 1.3 x 109 years 2) 42K half-life 12 hours 3) 131I half-life 8 days

Solution Which of the following radioisotopes are most likely to be used in nuclear medicine? Radioisotopes with short half-lives are used in nuclear medicine. 2) 42K half-life 12 hours 3) 131I half-life 8 days