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A medical technician is working with the four samples of radionuclides listed in the table below. Initially, each sample contains 18.00 µmol of the radionuclide. First, order the samples by decreasing initial radioactivity. Then calculate how long it will take for the amount of radionuclide in each sample to decrease to 1/32 of the initial amount. sample A B U D symbol 179 73 91 39 103 46 59 radionuclide 26 Ta Y Pd Fe half-life 2.0 years 59.0 days 17. days 45.0 days initial radioactivity (choose one) (choose one) (choose one) (choose one) time for amount of radionuclide to decrease to 1/32 of initial amount X years days days days

A medical technician is working with the four samples of radionuclides listed in the table below. Initially, each sample contains 18.00 µmol of the radionuclide. First, order the samples by decreasing initial radioactivity. Then calculate how long it will take for the amount of radionuclide in each sample to decrease to 1/32 of the initial amount. sample A B U D symbol 179 73 91 39 103 46 59 radionuclide 26 Ta Y Pd Fe half-life 2.0 years 59.0 days 17. days 45.0 days initial radioactivity (choose one) (choose one) (choose one) (choose one) time for amount of radionuclide to decrease to 1/32 of initial amount X years days days days

Chemistry & Chemical Reactivity
Chemistry & Chemical Reactivity
10th Edition
ISBN:9781337399074
Author:John C. Kotz, Paul M. Treichel, John Townsend, David Treichel
Publisher:John C. Kotz, Paul M. Treichel, John Townsend, David Treichel
Chapter25: Nuclear Chemistry
Section: Chapter Questions
Problem 67IL
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A medical technician is working with the four samples of radionuclides listed in the table below. Initially, each sample contains 18.00 μmol of the radionuclide. First, order the samples by decreasing initial radioactivity. Then calculate how long it will take for the amount of radionuclide in each sample to decrease to 1/32 of the initial amount. sample A B C D symbol 179 73 91 39 103 46 59 radionuclide 26 Ta Y Pd Fe half-life 2.0 years 59.0 days 17. days 45.0 days initial radioactivity (choose one) (choose one) ✓ (choose one) ✓ (choose one) ✓ time for amount of radionuclide to decrease to 1/32 of initial amount years days days days
Transcribed Image Text:A medical technician is working with the four samples of radionuclides listed in the table below. Initially, each sample contains 18.00 μmol of the radionuclide. First, order the samples by decreasing initial radioactivity. Then calculate how long it will take for the amount of radionuclide in each sample to decrease to 1/32 of the initial amount. sample A B C D symbol 179 73 91 39 103 46 59 radionuclide 26 Ta Y Pd Fe half-life 2.0 years 59.0 days 17. days 45.0 days initial radioactivity (choose one) (choose one) ✓ (choose one) ✓ (choose one) ✓ time for amount of radionuclide to decrease to 1/32 of initial amount years days days days
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A medical technician is working with the four samples of radionuclides listed in the table below. Initially, each sample contains 18.00 μmol of the radionuclide. First, order the samples by decreasing initial radioactivity. Then calculate how long it will take for the amount of radionuclide in each sample to decrease to 1/32 of the initial amount. sample A B с D symbol 179 73 91 39 103 46 59 26 radionuclide Ta Y Pd Fe half-life 2.0 years 59.0 days 17. days 45.0 days initial radioactivity (choose one) (choose one) (choose one) ✓ (choose one) ✓ time for amount of radionuclide to decrease to 1/32 of initial amount X years days days days
Transcribed Image Text:A medical technician is working with the four samples of radionuclides listed in the table below. Initially, each sample contains 18.00 μmol of the radionuclide. First, order the samples by decreasing initial radioactivity. Then calculate how long it will take for the amount of radionuclide in each sample to decrease to 1/32 of the initial amount. sample A B с D symbol 179 73 91 39 103 46 59 26 radionuclide Ta Y Pd Fe half-life 2.0 years 59.0 days 17. days 45.0 days initial radioactivity (choose one) (choose one) (choose one) ✓ (choose one) ✓ time for amount of radionuclide to decrease to 1/32 of initial amount X years days days days
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