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Deck 19: Nuclear Chemistry
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Question
Question
Which of the following symbols also represents a b particle?
A)
B)
C)
D)
E) None of the above
A)
B)
C)
D)
E) None of the above
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Which of the following is not a charged species?
A)
particle
B)
particle
C)
particle
D) all of the above
E) none of the above
A)
particleB)
particleC)
particleD) all of the above
E) none of the above
Question
Question
What is the result of a collision between an electron and a positron?
A) a quark
B) a neutrino
C)
rays
D) x-rays
E) all of the above are possible
A) a quark
B) a neutrino
C)
raysD) x-rays
E) all of the above are possible
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Deck 19: Nuclear Chemistry
1
A b particle has the same mass as a
A) Proton
B) Neutron
C) Positron
D) a and b
E) b and c
A) Proton
B) Neutron
C) Positron
D) a and b
E) b and c
C
2
Which of the following symbols also represents a b particle?
A)
B)
C)
D)
E) None of the above
A)
B)
C)
D)
E) None of the above
B
3
Which of the following has the greatest mass?
A) a particle
B) b particle
C) proton
D) neutron
A) a particle
B) b particle
C) proton
D) neutron
A
4
The dalton is equal to the mass:
A) 12C/(12*NA)
B) 1 amu
C) 1 12C atom
D) a and b
E) b and c
A) 12C/(12*NA)
B) 1 amu
C) 1 12C atom
D) a and b
E) b and c
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5
A short-lived negatively charged proton is called
A) a neutrino
B) an antiproton
C) a gamma particle
D) a negatron
A) a neutrino
B) an antiproton
C) a gamma particle
D) a negatron
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6
Which of the following is specific to radiation dosage in humans?
A) rad
B) rem
C) gray
D) sievert
A) rad
B) rem
C) gray
D) sievert
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7
206Tl decays by emitting a a particle. What nuclide is produced?
A) 210Bi
B) 202Bi
C) 202Au
D) 210Au
A) 210Bi
B) 202Bi
C) 202Au
D) 210Au
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8
210Pb decays by emitting a b particle. What nuclide is produced?
A) 210Tl
B) 210Bi
C) 210Hg
D) 210Pb
A) 210Tl
B) 210Bi
C) 210Hg
D) 210Pb
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9
222Rn decays by emitting an a particle. What nuclide is produced?
A) 218Po
B) 218Ra
C) 226Ra
D) 226Po
A) 218Po
B) 218Ra
C) 226Ra
D) 226Po
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10
11C is often used in PET diagnostic equipment. What nuclide is produced in this decay process?
A) 13C
B) 12C
C) 11B
D) 11N
A) 13C
B) 12C
C) 11B
D) 11N
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11
99mTc decays to 99Tc by what decay process?
A) a emission
B) b emission
C) g emission
D) b+ emission
E) none of the above
A) a emission
B) b emission
C) g emission
D) b+ emission
E) none of the above
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12
127Xe can decay to 127I. What type of decay process could produce this result?
A) b emission
B) g emission
C) b+ emission
D) electron capture
E) b and e
F) d and e
G) none of the above
A) b emission
B) g emission
C) b+ emission
D) electron capture
E) b and e
F) d and e
G) none of the above
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13
The mass of a 3He atom is 3.01602931 u. Thus Dm for the formation of one 3He nucleus is
A) -0.0303766 u
B) -0.0082857 u
C) -0.0110625 u
D) -0.0096741 u
E) none of the above
A) -0.0303766 u
B) -0.0082857 u
C) -0.0110625 u
D) -0.0096741 u
E) none of the above
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14
In the formation of the 10Be nucleus, Dm= -0.0697546 u. This corresponds to a nuclear bonding energy of
A) 6.269×109 kJ·mol-1
B) 649.7 MeV per atom
C) 64.97 MeV per atom
D) all of the above
E) none of the above
A) 6.269×109 kJ·mol-1
B) 649.7 MeV per atom
C) 64.97 MeV per atom
D) all of the above
E) none of the above
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15
The mass of a 40Ca atom is 39.962591 u. Calculate the nuclear binding energy for this atom in MeV.
A) 34.8 MeV
B) 332 MeV
C) 342 MeV
D) 319 MeV
E) None of the above
A) 34.8 MeV
B) 332 MeV
C) 342 MeV
D) 319 MeV
E) None of the above
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16
Exhibit 19-1
The following question(s) pertain to a 0.25 gram sample of the 32P nuclide which has a half life of 14.28 days and a specific activity of 1.07×1016 Bq·g-1.
Refer to Exhibit 19-1. What is the value of the decay constant k?
A) 7.00×10-2 d-1
B) 2.11×10-2 d-1
C) 4.85×10-2 d-1
D) 9.70×10-2 d-1
The following question(s) pertain to a 0.25 gram sample of the 32P nuclide which has a half life of 14.28 days and a specific activity of 1.07×1016 Bq·g-1.
Refer to Exhibit 19-1. What is the value of the decay constant k?
A) 7.00×10-2 d-1
B) 2.11×10-2 d-1
C) 4.85×10-2 d-1
D) 9.70×10-2 d-1
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17
Exhibit 19-1
The following question(s) pertain to a 0.25 gram sample of the 32P nuclide which has a half life of 14.28 days and a specific activity of 1.07×1016 Bq·g-1.
Refer to Exhibit 19-1. What is the activity of the 0.25 gram sample initially?
A) 1.07×1016 Bq
B) 2.68×1015 Bq
C) 4.28×1016 Bq
D) 5.33×1015 Bq
The following question(s) pertain to a 0.25 gram sample of the 32P nuclide which has a half life of 14.28 days and a specific activity of 1.07×1016 Bq·g-1.
Refer to Exhibit 19-1. What is the activity of the 0.25 gram sample initially?
A) 1.07×1016 Bq
B) 2.68×1015 Bq
C) 4.28×1016 Bq
D) 5.33×1015 Bq
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18
Exhibit 19-1
The following question(s) pertain to a 0.25 gram sample of the 32P nuclide which has a half life of 14.28 days and a specific activity of 1.07×1016 Bq·g-1.
Refer to Exhibit 19-1. What is the activity of the 0.25 gram sample after 30 days?
A) 6.26×1014 Bq
B) 2.50×1015 Bq
C) 1.42×1015 Bq
D) 1.42×1014 Bq
The following question(s) pertain to a 0.25 gram sample of the 32P nuclide which has a half life of 14.28 days and a specific activity of 1.07×1016 Bq·g-1.
Refer to Exhibit 19-1. What is the activity of the 0.25 gram sample after 30 days?
A) 6.26×1014 Bq
B) 2.50×1015 Bq
C) 1.42×1015 Bq
D) 1.42×1014 Bq
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19
Exhibit 19-1
The following question(s) pertain to a 0.25 gram sample of the 32P nuclide which has a half life of 14.28 days and a specific activity of 1.07×1016 Bq·g-1.
Refer to Exhibit 19-1. How long will it take for the activity of the 0.25 g sample to fall below 1 Ci? (1 Ci=3.7×1010 Bq)
A) 190 days
B) 217 days
C) 231 days
D) 259 days
The following question(s) pertain to a 0.25 gram sample of the 32P nuclide which has a half life of 14.28 days and a specific activity of 1.07×1016 Bq·g-1.
Refer to Exhibit 19-1. How long will it take for the activity of the 0.25 g sample to fall below 1 Ci? (1 Ci=3.7×1010 Bq)
A) 190 days
B) 217 days
C) 231 days
D) 259 days
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20
Exhibit 19-2
The following question(s) pertain to a 450 gram sample of 60Co recovered from a decommissioned nuclear reactor. An activity of 1.11×1013 Bq was measured by technicians dismantling the plant.
Refer to Exhibit 19-2. The activity of the sample was measured a year later and found to be 9.73×1012 Bq. What is the decay constant?
A) 0.132 d-1
B) 0.0572 d-1
C) 3.12 d-1
D) 0.319 d-1
The following question(s) pertain to a 450 gram sample of 60Co recovered from a decommissioned nuclear reactor. An activity of 1.11×1013 Bq was measured by technicians dismantling the plant.
Refer to Exhibit 19-2. The activity of the sample was measured a year later and found to be 9.73×1012 Bq. What is the decay constant?
A) 0.132 d-1
B) 0.0572 d-1
C) 3.12 d-1
D) 0.319 d-1
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21
Exhibit 19-2
The following question(s) pertain to a 450 gram sample of 60Co recovered from a decommissioned nuclear reactor. An activity of 1.11×1013 Bq was measured by technicians dismantling the plant.
Refer to Exhibit 19-2. What is the half life of the 60Co?
A) 1.43 years
B) 2.17 years
C) 4.51 years
D) 5.26 years
The following question(s) pertain to a 450 gram sample of 60Co recovered from a decommissioned nuclear reactor. An activity of 1.11×1013 Bq was measured by technicians dismantling the plant.
Refer to Exhibit 19-2. What is the half life of the 60Co?
A) 1.43 years
B) 2.17 years
C) 4.51 years
D) 5.26 years
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22
Exhibit 19-2
The following question(s) pertain to a 450 gram sample of 60Co recovered from a decommissioned nuclear reactor. An activity of 1.11×1013 Bq was measured by technicians dismantling the plant.
Refer to Exhibit 19-2. If the specific activity of 60Co is 4.07×1013 Bq·g-1, how long had the 60Co been in the plant?
A) 2 years
B) 23 years
C) 44 years
D) 56 years
The following question(s) pertain to a 450 gram sample of 60Co recovered from a decommissioned nuclear reactor. An activity of 1.11×1013 Bq was measured by technicians dismantling the plant.
Refer to Exhibit 19-2. If the specific activity of 60Co is 4.07×1013 Bq·g-1, how long had the 60Co been in the plant?
A) 2 years
B) 23 years
C) 44 years
D) 56 years
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23
Exhibit 19-2
The following question(s) pertain to a 450 gram sample of 60Co recovered from a decommissioned nuclear reactor. An activity of 1.11×1013 Bq was measured by technicians dismantling the plant.
Refer to Exhibit 19-2. How long from the day it was removed from the plant will it take for the activity of the 450 gram sample to fall below 1 Ci? (1 Ci=3.7×1010 Bq)
A) 11 years
B) 26 years
C) 43 years
D) 95 years
The following question(s) pertain to a 450 gram sample of 60Co recovered from a decommissioned nuclear reactor. An activity of 1.11×1013 Bq was measured by technicians dismantling the plant.
Refer to Exhibit 19-2. How long from the day it was removed from the plant will it take for the activity of the 450 gram sample to fall below 1 Ci? (1 Ci=3.7×1010 Bq)
A) 11 years
B) 26 years
C) 43 years
D) 95 years
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24
Which of the following can be used as radiation detectors?
A) Photographic film
B) Geiger counters
C) Scintillators
D) b and d
E) a and b
F) all of the above
G) none of the above
A) Photographic film
B) Geiger counters
C) Scintillators
D) b and d
E) a and b
F) all of the above
G) none of the above
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25
Radioactive decay can be thought of as a ______ order process in kinetics.
A) zeroth
B) first
C) second
D) fractional
E) none of the above
A) zeroth
B) first
C) second
D) fractional
E) none of the above
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26
Transuranic elements are produced in the process of
A) nuclear fission
B) nuclear fusion
C) hydrogen burning
D) all of the above
E) none of the above
A) nuclear fission
B) nuclear fusion
C) hydrogen burning
D) all of the above
E) none of the above
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27
Nuclear power plants produce electricity by carefully controlling the process of
A) nuclear fission
B) nuclear fusion
C) hydrogen burning
D) all of the above
E) none of the above
A) nuclear fission
B) nuclear fusion
C) hydrogen burning
D) all of the above
E) none of the above
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28
Moderators are used
A) to slow down high energy positrons in chain reactions
B) to slow down high energy neutrons in chain reactions
C) quench the production of a particles
D) all of the above
E) none of the above
A) to slow down high energy positrons in chain reactions
B) to slow down high energy neutrons in chain reactions
C) quench the production of a particles
D) all of the above
E) none of the above
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29
One gram of the carbon in modern wood charcoal displays an activity of 15.3 disintegrations per minute. If the half-life of the 14C is 5730 years, how many 14C atoms are there in 1.00 g of charcoal?
A) 1.11×109
B) 4.61×1010
C) 6.65×1010
D) 4.00×1012
A) 1.11×109
B) 4.61×1010
C) 6.65×1010
D) 4.00×1012
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30
The specific activity of 14C in the biosphere is 0.255 Bq·g-1 with a half life of 5730 years. What is the age of a piece of Egyptian papyrus that has a specific activity of 0.156 Bq·g-1?
A) 2820 years
B) 3510 years
C) 4060 years
D) 5860 years
A) 2820 years
B) 3510 years
C) 4060 years
D) 5860 years
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31
Which of the following is not a charged species?
A) particle
B) particle
C) particle
D) all of the above
E) none of the above
A)
particleB)
particleC)
particleD) all of the above
E) none of the above
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32
Nuclides with the same mass number but with different numbers of protons and neutrons are called
A) isotopes
B) isotones
C) isomers
D) isobars
E) isoclines
A) isotopes
B) isotones
C) isomers
D) isobars
E) isoclines
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33
What is the result of a collision between an electron and a positron?
A) a quark
B) a neutrino
C) rays
D) x-rays
E) all of the above are possible
A) a quark
B) a neutrino
C)
raysD) x-rays
E) all of the above are possible
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