NTHS AP Chemistry Name _______________________________
Period ___ Date ___/___/___
24 Nuclear Chemistry
STUDY QUESTIONS
1. Write equations for the following reactions:
a. The production of 56Mn by neutron bombardment of 59Co.
b. The production of the new element dubnium by bombarding elements of Cf with N nuclei.
c. The bombardment of Al with particles to produce P and the subsequent decay of P
to silicon by positron emission.
d. The conversion of potassium-40 to argon-40 by electron capture.
e. The production of carbon-14 in the upper atmosphere by neutron bombardment of N.
2. Why are radioactive isotopes of intermediate half-lives more hazardous than radioisotopes with long half- lives or very short half-lives?
3. Predict the radioactive ray of the following radioactive isotopes based upon their position relative to the band of stability:
a. carbon-14
b. krypton-87
c. thorium-230
d. phosophorus-29
e. europium-145
4. Calculate the quantity of energy released when one atom of uranium-235 is split by the impact of a neutron into barium-142 and krypton-92 releasing one additional neutron. Then calculate the quantity of energy released when one gram of uranium-235 undergoes fission in the same way.
U + n Ba + Kr + 2 n
Atomic masses:
U 235.04 amu
Ba 141.92 amu
Kr 91.92 amu
n 1.0087 amu
5. Charcoal retrieved from the site of Stonehenge in England has a carbon-14 activity 62.0% that of carbon-14 in living plants. Assuming that the abundance of carbon-14 in the atmosphere has remained more or less constant for the past few thousand years, how old is the charcoal?
The half-life of carbon-14 is 5730 years.
6. Strontium-90 is a hazardous isotope present in the fallout from nuclear explosions. If 1.00 gram of strontium-90 diminishes to 0.786 gram in 10 years, as measured by its activity, what is the half-life of strontium-90?
7. Technicium-99 is prepared for medical imaging experiments by neutron bombardment of molybdenum-98. The unstable molybdenum-99 produced by this bombardment decays by β emission to an excited technicium-99, which in turns relaxes to its ground state by emission. The technicium-99 is itself radioactive and decays by β emission. Write the equations for this sequence of reactions.
8. If a radioactive isotope lies above the band of stability, which decay process would lead it toward the band, that is, form a more stable isotope?
9. Iron-56 is the isotope with the highest binding energy per nucleon. Calculate the binding energy per nucleon from the following data:
mass of proton = 1.007275 amu
mass of neutron = 1.008666 amu
mass of electron = 0.0005486 amu
atomic mass of iron-56 = 55.9349 amu
Express your answer in units of J/nucleon.
10. a. The fission of an americium-244 isotopes produces iodine-134 and molybdenum-107.
How many neutrons are also produced in each fission event?
b. The fission of californium-252 nucleus produces one barium-142 nucleus and one
molybdenum-106 nucleus. How many neutrons are produced in this reaction?
11. Moderator rods and control rods in a nuclear fission reactor serve different functions. What are their functions and how are they different?
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