An 85 kg patient swallows a 30 μCi beta emitter with a half-life of 5.0 days,...

Bismuth-210 is beta emitter with a half-life of 5.0 days. Part A If a sample contains...

Bismuth-210 is beta emitter with a half-life of 5.0 days. Part A If a sample contains 1.3 g of Bi-210 (atomic mass = 209.984105 amu), how many beta emissions occur in 14.0 days? Express your answer using two significant figures. betadecays Part B If a person's body intercepts 5.5 % of those emissions, to what dose of radiation (in Ci) is the person exposed? Express your answer using two significant figures. Dose of radiation = Ci

A patient swallows a radiopharmaceutical tagged with phosphorus-32 32 15 P , a β− emitter with...

A patient swallows a radiopharmaceutical tagged with phosphorus-32 32 15 P , a β− emitter with a half-life of 14.3 days. The average kinetic energy of the emitted electrons is 700 keV. The initial activity of the sample is 1.31 MBq. (a) What is the number of electrons emitted in a 9.0 day period? electrons (b) What is the total energy deposited in the body during the 9.0 days? J (c) What is the absorbed dose if the electrons are...

Bi−210 is a beta emitter with a half-life of 5.0 days. Part A If a sample...

Bi−210 is a beta emitter with a half-life of 5.0 days. Part A If a sample contains 1.8 g of Bi−210 , how many beta emissions would occur in 10 days?

Most of the internal radiation of the human body is due to a single isotope, the...

Most of the internal radiation of the human body is due to a single isotope, the beta emitter 40K, with half life of 1.28×109 years. The body contains about 0.35% potassium by mass; of this potassium, about 0.012% is 40K. • What is the total activity, in Bq, of a 70 kg human? • Each 40K decay produces a 1.3 MeV beta particle. If 40% of the energy of these decays is absorbed by the body, what dose, and what...

A patient ingests 140 mg of 131I (iodine-131), a beta emitter with a half-life of 8.0...

A patient ingests 140 mg of 131I (iodine-131), a beta emitter with a half-life of 8.0 days. Assuming that none of the 131I is eliminated from the person's body in the first 4.0 hours of treatment, what is the exposure (in Ci) during those 4.0 hours? Express your answer using two significant figures. exposure= _____ Ci

A patient with prostate cancer is treated with implanted seeds that contain the samarium isotope 153Sm...

A patient with prostate cancer is treated with implanted seeds that contain the samarium isotope 153Sm which decays with a half-life of 1.9 days by emitting beta particles (RBE=1) each of 0.8 MeV energy. The seeds have an activity of 100 MBq when first implanted, and 40% of the decay energy is absorbed by the 0.024 kg prostate gland. What dose equivalent does the gland receive after 1.9 days?

Suppose a patient is given 140 mg of I−131, a beta emitter with a half-life of...

Suppose a patient is given 140 mg of I−131, a beta emitter with a half-life of 8.0 days.Assuming that none of the I−131 is eliminated from the person's body in the first 4.0 hours of treatment, what is the exposure (in Ci) during those first four hours?(give correct solution)

(1) Fluorine-18 uorodeoxyglucose (18FDG) is a radioactive tracer (half life of 1.83 hours) administered to patients...

(1) Fluorine-18 uorodeoxyglucose (18FDG) is a radioactive tracer (half life of 1.83 hours) administered to patients who are undergoing PET imaging. This imaging modality, which creates images by detecting the positrons that are emitted when the fluorine-18 undergoes beta + decay, permits physicians to monitor the metabolism of glucose in the body. (a) Write down the decay chain for fluorine-18 when it undergoes beta + decay (b) A patient is given a does of 18FDG prior to a PET scan...

After the Fukushima Nuclear reactor disaster, people were evacuated from the affected area, but not all...

After the Fukushima Nuclear reactor disaster, people were evacuated from the affected area, but not all dogs were. People rescued and treated the dogs to help them eliminate radioactive nuclei from their bodies. The main isotope of concern was 137 Cs, which undergoes beta-minus decay with the subsequent emission of a gamma ray. Both the beta and the gamma radiation have RBE=1, and for one decay the total energy deposited in tissue is 1.2 MeV. 137 Cs has a half...

Certain cancers, especially those of the liver, can be treated by injecting small glass spheres (30...

Certain cancers, especially those of the liver, can be treated by injecting small glass spheres (30 to 35 µm in diameter) containing radioactive 90Y into the tumor. The spheres become lodged in the small capillaries of the tumor, both cutting off its blood supply and delivering a high dose of radiation which damages the tumor, hopefully sparing surrounding healthy tissue. The spheres stay in place until the radioactivity has completely decayed. 90Y undergoes beta-minus decay with a half-life of 64...