Choose one of the radioisotopes from the list or find a radioisotope that is not on the list but interests you.
Using your book and Internet resources, find five interesting pieces of information on the radioisotope you selected. Suggested pieces of information may include:

Choose one of the radioisotopes from the list or find a radioisotope

According to our textbook, “radioisotopes are powerful tools for studying processes in biochemistry, medicine, material science, environmental studies and many other scientific and industrial fields.”

Below is a list of radioisotopes and their half-lives. You will be choosing one of these radioisotopes to explore in more detail.

Choose one of the radioisotopes from the list or find a radioisotope that is not on the list but interests you.
Using your book and Internet resources, find five interesting pieces of information on the radioisotope you selected.

Suggested pieces of information may include:

Firstly, How is the radioisotope formed in nature (type of decay)?

Secondly, Risks associated with the radioisotope

Thirdly, Number of subatomic nucleons present.

Fourthly, Stability of the radioisotope.

Further, How this radioisotope is used.

Additionally, Is the radioisotope used as a medical tracer? If yes, for what body part or process? Briefly explain.

(These are just a few suggestions. See if you can find other interesting facts.)

Remember to site your sources in APA style.

Firstly, Radioisotopes (half-life indicated)

Secondly, Molybdenum-99 (66 h)

Thirdly, Technetium-99m (6 h)

Fourthly, Bismuth-213 (46 min)

Further, Chromium-51 (28 d)

Additionally, Cobalt-60 (10.5 mth)

Moreover, Copper-64 (13 h

Also, Dysprosium-165 (2 h

Erbium-169 (9.4 d)

Holmium-166 (26 h)

Iodine-125 (60 d)

Iridium-192 (74 d)

Iron-59 (46 d)

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)

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)

Rubidium-82 (65 h)

Strontium-92 (25 d)

Thallium-201 (73 h)

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