What is the effective dose equivalent for a 100 mrad dose to the thyroid from I-131?

At 8:00 A.M., a patient receives a 1.1-μg dose of I-131 to treat thyroid cancer. Part...

At 8:00 A.M., a patient receives a 1.1-μg dose of I-131 to treat thyroid cancer. Part A: If the nuclide has a half-life of 8.0 days, what mass of the nuclide remains in the patient at 4:00 P.M. the next day? (Assume no excretion of the nuclide from the body.) Express your answer using two significant figures. m =   μg  

At 8:00 A.M., a patient receives a 1.1-μg dose of I-131 to treat thyroid cancer. Part...

At 8:00 A.M., a patient receives a 1.1-μg dose of I-131 to treat thyroid cancer. Part A If the nuclide has a half-life of 8.0 days, what mass of the nuclide remains in the patient at 4:00 P.M. the next day? (Assume no excretion of the nuclide from the body.) Express your answer using two significant figures. m =   μg  

Calculate the mean dose to the liver and segments of GI tract resulting from the intravenous...

Calculate the mean dose to the liver and segments of GI tract resulting from the intravenous injection of 10 kBq of I-123 completely and uniformly taken by the liver. Assume that biological half-life is equal to radiological. Assuming all charged particle energy is absorbed and all photon energy is lost, calculate the dose rate to the reference thyroid (ICRP 23) that contains a constant activity of 2 pCi of I-131

1.Iodine-131 is administered orally in the form of NaI(aq) as a treatment for thyroid cancer. The...

1.Iodine-131 is administered orally in the form of NaI(aq) as a treatment for thyroid cancer. The half-life of iodine-131 is 8.04 days. How much time is required for the activity of a sample of iodine-131 to fall to 18.8 percent of its original value? Answer in days: 2. Iodine-131 is administered orally in the form of NaI(aq) as a treatment for thyroid cancer. The half-life of iodine-131 is 8.04 days. If you begin with 46.7 mg of this isotope, what...

The iodine isotope 131 53 I (half-life = 8 days, atomic mass = 131 u) is...

The iodine isotope 131 53 I (half-life = 8 days, atomic mass = 131 u) is used in hospitals for diagnosis of thyroid function. (1 u = 1.66 x 10-27 kg). If 682 μg (1 μg = 10-6 g) are ingested by a patient, determine the activity (a) Immediately (b) One hour later, when the thyroid is being tested (c) Six months later (assume the iodine is still in the patient’s body)

For a patient that is given 1 Gy total body dose, what is the equivalent dose?...

For a patient that is given 1 Gy total body dose, what is the equivalent dose? A. 0.12 Sv B. 1.0 Gy C. 1.0 Sv E. B and C F. It varies with body site.

How many milligrams of radioactive iodine (I-131) would be left from an initial amount of 100...

How many milligrams of radioactive iodine (I-131) would be left from an initial amount of 100 mg after 32 days if the half life is 8 days?

In a clinical study, a patient intakes 10.0 μg of Iodine-131. After 5 days, it is...

In a clinical study, a patient intakes 10.0 μg of Iodine-131. After 5 days, it is found that the concentration of I-131 in the patient’s thyroid has declined to 6.50 μg. What is the half-life of I-131? A. 5 days B. 8 days C. 7.2 days D. 0.086 days

problems in Radiation course 2-In your own words, explain the difference between absorbed dose and equivalent...

problems in Radiation course 2-In your own words, explain the difference between absorbed dose and equivalent dose 3-Calculate the total equivalent dose to tissue from separate doses of 3 mGy of gamma radiation, 0.6 mGy of slow neutrons, and 1 mGy of beta radiation. 4-Gamma radiation has deposited 10 joules of energy in a 100-kg man. He has received a radiation dose of: a) 10 Gy b) 1 Gy c) 0.1 Gy d) none of the above.

problems in Radiation course 3-Calculate the total equivalent dose to tissue from separate doses of 3...

problems in Radiation course 3-Calculate the total equivalent dose to tissue from separate doses of 3 mGy of gamma radiation, 0.6 mGy of slow neutrons, and 1 mGy of beta radiation. 4-Gamma radiation has deposited 10 joules of energy in a 100-kg man. He has received a radiation dose of: a) 10 Gy b) 1 Gy c) 0.1 Gy d) none of the above.