Radioisotopes are used in a variety of settings, ranging from cancer treatment to measuring engine wear Your textbook says that radioisotopes have revolutionized medical practice Perhaps you use a radioisotope in your own career We have provided a list of common radioisotopes below Choose one of these, or choose one of your own Research this isotope, and share what you learn Requirements Choose a radioisotope from the list or choose one of your own Using your textbook, the Internet, or any other relevant source, share five interesting pieces of information about your radioisotope Suggestions for facts may include How is the radioisotope formed in nature What kind of decay does it undergo What is its half life How is it used What risks are involved What other decay products are formed What is the history behind its discovery and use These are only suggestions There are many other possibilities for interesting facts that you might want to share Respond to at least two other students Remember to respond in such a way that encourages further discussion Check back for comments made on your post to keep the discussion going Note This assignment is intended to share information about a radioisotope It is not a research paper However, be sure to use AMA style to cite any sources you use Molybdenum 99 (66 h) Lutetium 177 (6 7 d) Palladium 103 (17 d) Phosphorus 32 (14 d) Potassium 42 (12 h) Rhenium 186 (3 8 d) Rhenium 188 (17 h) Samarium 153 (47 h) Selenium 75 (120 d) Sodium 24 (15 h) Strontium 89 (50 d) Strontium 92 (25 d) Iron 59 (46 d) Technetium 99m (6 h) Bismuth 213 (46 min) Chromium 51 (28 d) Cobalt 60 (10 5 mth) Copper 64 (13 h) Dysprosium 165 (2 h) Erbium 169 (9 4 d) Holmium 166 (26 h) Iodine 125 (60 d) Iridium 192 (74 d) Rubidium 82 (65 h) Xenon 133 (5 d) Ytterbium 169 (32 d) Yttrium 90 (64 h) Carbon 11 (20 m) Nitrogen 13 ( 10 m) Oxygen 15 ( 2 m) Fluorine 18 (20 m) Cobalt 57 (272 d) Gallium 67 (78 h) Indium 111 (2 8 d) Iodine 123 (13 h) Thallium 201 (73 h)

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Radioisotopes are used in a variety of settings, ranging from cancer treatment to measuring engine wear. Your textbook says that radioisotopes have revolutionized medical practice.

Radioisotopes are used in a variety of settings, ranging from cancer treatment to measuring engine wear. Your textbook says that radioisotopes have revolutionized medical practice. Perhaps you use a radioisotope in your own career.

We have provided a list of common radioisotopes below. Choose one of these, or choose one of your own. Research this isotope, and share what you learn.

Requirements

Choose a radioisotope from the list or choose one of your own.
Using your textbook, the Internet, or any other relevant source, share five interesting pieces of information about your radioisotope. Suggestions for facts may include:
1. How is the radioisotope formed in nature?
2. What kind of decay does it undergo?
3. What is its half-life?
4. How is it used?
5. What risks are involved?
6. What other decay products are formed?
7. What is the history behind its discovery and use? These are only suggestions. There are many other possibilities for interesting facts that you might want to share.
Respond to at least two other students. Remember to respond in such a way that encourages further discussion.
Check back for comments made on your post to keep the discussion going.

Note: This assignment is intended to share information about a radioisotope. It is not a research paper. However, be sure to use AMA style to cite any sources you use.

Molybdenum-99 (66 h)

Lutetium-177 (6.7 d)

Palladium-103 (17 d)

Phosphorus-32 (14 d)

Potassium-42 (12 h)

Rhenium-186 (3.8 d)

Rhenium-188 (17 h)

Samarium-153 (47 h)

Selenium-75 (120 d)

Sodium-24 (15 h)

Strontium-89 (50 d)

Strontium-92 (25 d)