What decay mode and daughter nucleus are expected for 35p?OA. We expect the 35p to decay by beta-plus. The daughter nucleus is 35 Ar.B. We expect the 35p to decay by beta-minus. The daughter nucleus is 35 Cl.OC. We expect the 35p to decay by beta-plus. The daughter nucleus is 35 Al.OD. We expect the 35p to decay by beta-minus. The daughter nucleus is 35s. For a gamma scan of a liver, a patient ingests a 15 MBq sample of 99Tc*. It decays with a 6.0 hour half-life and emits a 0.14MeV gamma ray (RBE= 1) each decay. Approximately 55 % of the radioactive material remains in the liver. If all the atoms of99Tc* decay in the patient's 1300 g liver, determine the total equivalent dose received by the patient's liver.OA. 8.06 SvOB. 8.06 mSvOC. 4.43 mSvOD.3.07 mSv

Option D) We expect the 35p to decay by beta-minus. The daughter nucleus is 355.

For a gamma scan of a liver, a patient ingests a 15 MBq sample of 99Tc*. It decays with a 6.0 hour half-life and emits a 0.14 MeV gamma ray (RBE= 1) each decay. Approximately 55 % of the radioactive material remains in the liver. If all the atoms of 99Tc* decay in the patient's 1300 g liver, determine the total equivalent dose received by the patient's liver. OA. 8.06 Sv B. 8.06 mSv OC. 4.43 mSv D.3.07 mSv

For a gamma scan of a liver, a patient ingests a 15 MBq sample of 99Tc. It decays with a 6.0 hour half-life and emits a 0.14 MeV gamma ray (RBE= 1) each decay. Approximately 55 % of the radioactive material remains in the liver. If all the atoms of 99Tc decay in the patient's 1300 g liver, determine the total equivalent dose received by the patient's liver. OA. 8.06 Sv B. 8.06 mSv OC. 4.43 mSv D.3.07 mSv

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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