Calculate the radiation dosage in grays for a 6363‑kg person who is exposed for 8.08.0 s...

Calculate the radiation dosage (in grays) for an 85-kg person that is exposed for 3.0 seconds...

Calculate the radiation dosage (in grays) for an 85-kg person that is exposed for 3.0 seconds to a 3.0 Ci source of beta radiation. Assume that 100% of the radiation is absorbed and each beta particle has an energy of 1.3× 10–13 J. Answer should be in Gy.

Calculate the radiation dosage (in grays) for an 75-kg person that is exposed for 5.0 seconds...

Calculate the radiation dosage (in grays) for an 75-kg person that is exposed for 5.0 seconds to a 3.0 Ci source of beta radiation. Assume that 100% of the radiation is absorbed and each beta particle has an energy of 2.0× 10–13 J.

Calculate the radiation dosage (in grays) for an 75-kg person that is exposed for 5.0 seconds...

Calculate the radiation dosage (in grays) for an 75-kg person that is exposed for 5.0 seconds to a 3.0 Ci source of beta radiation. Assume that 100% of the radiation is absorbed and each beta particle has an energy of 2.0× 10–13 J. Answer is not: 2.15*10^13Gy Answer is not: 2.15*10^-15 J/kg Answer is not: 1.1*10^11

Question 6. The average natural background radiation received for a person in the U.S. is about...

Question 6. The average natural background radiation received for a person in the U.S. is about 0.3 rem per year. (rem is a unit useful for radiation dosage). Calculate how much radiation a person could receive in this lab if they held one of the 0.1 microCi Cs-137 sources in their hand for 1 hour and all of the radiation was absorbed (100 % efficiency). Assume the mass of the hand is 2 kg. The gamma radiation produced by Cs-137...

A worker at a nuclear plant is exposed for 5.00 minutes to 1.00 Ci of beta...

A worker at a nuclear plant is exposed for 5.00 minutes to 1.00 Ci of beta radiation from 90Sr, each with energy of 0.546 MeV. (a) How many beta particles does he absorbs? (b) If he weighs 70.0 kg, how many rads (radiation absorbed dose) does he receive? (c) If the RBE is 1.0, how many mrems of radiation dose is absorbed?

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.

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 254-rad dose of radiation is administered to a patient in an effort to combat a...

A 254-rad dose of radiation is administered to a patient in an effort to combat a cancerous growth. Assume that all of the energy deposited is absorbed by the growth. (Use 4186 J/kg · °C for the specific heat of water.) (a) Calculate the amount of energy delivered per unit mass. J/kg (b) Assuming the growth has a mass of 0.25 kg and a specific heat equal to that of water, calculate its temperature rise. Your response differs from the...

1. A patient absorbs a 37-rad dose of α-particles (RBE = 20) directly on a tumor. If protons were...

1. A patient absorbs a 37-rad dose of α-particles (RBE = 20) directly on a tumor. If protons were used instead (RBE = 10), how many rad would be needed to cause the same damage? 2. If an 84 kg person is exposed to 42 mrem of alpha particles (with RBE of 12), calculate the dosage (in rad) received by the person.  rad What is the amount of energy absorbed by the person (in J)?  J 3. A bone was found that has a ratio of C-14 atoms...