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Deck 29: Nuclear Physics

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Question
16O, 17O, and 18O are ________ of oxygen.

A) isotones
B) isotopes
C) isobars
D) isomers
E) isotherms
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Question
What is the radius of a nuclide with mass number 190?

A) 190 fm
B) 5.7 fm
C) 6.9 fm
D) 4.8 fm
E) 0.19 fm
Question
One mole of <strong>One mole of has a mass of approximately</strong> A) 13 g B) 27 g C) 14 g D) 20 g E) 40 g <div style=padding-top: 35px> has a mass of approximately

A) 13 g
B) 27 g
C) 14 g
D) 20 g
E) 40 g
Question
One mole of 40Ar (Z = 18) has about what mass?

A) 18 g
B) 22 g
C) 40 kg
D) 40 g
E) 22 kg
Question
Isotopes of an element have the same number of ________ but different numbers of _______.

A) neutrons, protons
B) electrons, protons
C) protons, neutrons
D) neutrons, electrons
E) protons, electrons
Question
What is the symbol for the nuclide with 38 protons and 50 neutrons?

A) <strong>What is the symbol for the nuclide with 38 protons and 50 neutrons?</strong> A) B) C) D) <div style=padding-top: 35px>
B) <strong>What is the symbol for the nuclide with 38 protons and 50 neutrons?</strong> A) B) C) D) <div style=padding-top: 35px>
C) <strong>What is the symbol for the nuclide with 38 protons and 50 neutrons?</strong> A) B) C) D) <div style=padding-top: 35px>
D) <strong>What is the symbol for the nuclide with 38 protons and 50 neutrons?</strong> A) B) C) D) <div style=padding-top: 35px>
Question
How many neutrons are in a 35Cl nucleus?

A) 17
B) 18
C) 16
D) 19
Question
In the reaction n + 12C → α + ?, what is the unknown product nucleus?

A) (13C)
B) (9C)
C) (10B)
D) (9B)
E) (9Be)
Question
How many neutrons are in a 15C nucleus?

A) 7
B) 8
C) 6
D) 9
Question
What nuclide has 14 protons and 16 neutrons?

A) (16S)
B) (14O)
C) (30Si)
D) (30S)
Question
In the reaction 4He + 9Be → n + 12C, how much energy is released or absorbed? The masses of the neutral atoms are as follows: the mas of 4He is 4.0026033 u, the mass of 9Be is 9.0121831 u, the mass of n is 1.0086649 u, and the mass of 12C is 12.0000000 u.

A) 4.21 MeV absorbed
B) 4.21 MeV released
C) 5.70 MeV absorbed
D) 5.70 MeV released
E) 6.34 MeV released
Question
What is the density of the 238U nucleus?

A) 2.3 × 1017 kg/m3
B) 9.6 × 1014 kg/m3
C) 3.2 × 1014 kg/m3
D) 2.38 × 105 kg/m3
E) 1.0 × 103 kg/m3
Question
What is the volume of the <strong>What is the volume of the nucleus?</strong> A) 6.7 × 10<sup>-43</sup> m<sup>3</sup> B) 5.2 × 10<sup>-42</sup> m<sup>3</sup> C) 1.7 × 10<sup>-42</sup> m<sup>3</sup> D) 1.6 × 10<sup>-42</sup> m<sup>3</sup> E) 1.2 × 10<sup>-12</sup> m<sup>3</sup> <div style=padding-top: 35px> nucleus?

A) 6.7 × 10-43 m3
B) 5.2 × 10-42 m3
C) 1.7 × 10-42 m3
D) 1.6 × 10-42 m3
E) 1.2 × 10-12 m3
Question
What is the symbol for the nuclide with 46 protons and 92 neutrons?

A) <strong>What is the symbol for the nuclide with 46 protons and 92 neutrons?</strong> A) B) C) D) <div style=padding-top: 35px>
B) <strong>What is the symbol for the nuclide with 46 protons and 92 neutrons?</strong> A) B) C) D) <div style=padding-top: 35px>
C) <strong>What is the symbol for the nuclide with 46 protons and 92 neutrons?</strong> A) B) C) D) <div style=padding-top: 35px>
D) <strong>What is the symbol for the nuclide with 46 protons and 92 neutrons?</strong> A) B) C) D) <div style=padding-top: 35px>
Question
How many atoms are in one gram of <strong>How many atoms are in one gram of ?</strong> A) 1.63 × 10<sup>25</sup> B) 6.02 × 10<sup>22</sup> C) 1.51 × 10<sup>23</sup> D) 2.23 × 10<sup>25</sup> E) 2.23 × 10<sup>22</sup> <div style=padding-top: 35px> ?

A) 1.63 × 1025
B) 6.02 × 1022
C) 1.51 × 1023
D) 2.23 × 1025
E) 2.23 × 1022
Question
One pg (picogram) of 40K has how many nuclei?

A) 6.0 × 1017
B) 6.0 × 1011
C) 1.5 × 1022
D) 3.0 × 1011
E) 1.5 × 1010
Question
The particles in the nucleus referred to as nucleons are

A) electrons and protons.
B) protons and neutrons.
C) neutrons and electrons.
D) electrons and photons.
Question
If a nucleus has a volume of 1.0 × 10-42 m3, what is its mass number?

A) 1
B) 25
C) 100
D) 138
E) 174
Question
What is the element X for the nuclide <strong>What is the element X for the nuclide ?</strong> A) Zn B) Se C) Gd D) Ge <div style=padding-top: 35px> ?

A) Zn
B) Se
C) Gd
D) Ge
Question
A nuclide whose "generic" symbol is <strong>A nuclide whose generic symbol is would have how many protons and neutrons, respectively?</strong> A) 64, 30 B) 30, 64 C) 30, 34 D) 34, 30 <div style=padding-top: 35px> would have how many protons and neutrons, respectively?

A) 64, 30
B) 30, 64
C) 30, 34
D) 34, 30
Question
Of the following quantities, which (if any) is not conserved in radioactive decay?

A) energy
B) momentum
C) charge
D) angular momentum
E) All these quantities are conserved.
Question
What is the binding energy of an alpha particle?

A) 2.20 MeV
B) 50.0 MeV
C) 28.3 MeV
D) 21.2 MeV
Question
In the nucleus, what are the maximum number of neutrons in a neutron energy level, and the maximum number of protons in a proton energy level, respectively?

A) 1, 1
B) 1, 2
C) 2, 1
D) 2, 2
E) 2, 8
Question
The isotope A281 decays by beta-minus decay. What is the daughter nucleus?

A) Mg28
B) A271
C) Na24
D) Si28
E) Si27
Question
Of those elements listed below, the binding energy per nucleon reaches a maximum closest to

A) oxygen.
B) iron.
C) gold.
D) tungsten.
E) uranium.
Question
Who discovered radioactivity?

A) Niels Bohr
B) Marie Curie
C) Albert Einstein
D) Henri Becquerel
E) Richard Feynman
Question
The isotope A261 decays by beta-plus decay. What is the daughter nucleus?

A) (27Al)
B) (25Al)
C) (26Mg)
D) (26Si)
E) (26Al)
Question
The majority of the average yearly radiation exposure from nonmedical sources, for people living in the United States, comes from

A) eating bananas.
B) cosmic rays.
C) naturally occurring uranium.
D) radon gas.
E) smoke detectors.
Question
In beta-minus decay, which neutrino is emitted?

A) the electron neutrino
B) the electron antineutrino
C) the muon neutrino
D) the muon antineutrino
E) the tau neutrino
Question
What is the binding energy per nucleon for 12C?

A) 137 MeV
B) 104 MeV
C) 92.2 MeV
D) 46.1 MeV
E) 7.68 MeV
Question
When 241 Am decays by emitting an alpha particle of kinetic energy 5.5 MeV, what is the recoil energy of the daughter nucleus?

A) 5.5 MeV
B) 1.3 MeV
C) 0.88 MeV
D) 0.093 MeV
E) 0.091 MeV
Question
The symbol <strong>The symbol is used to represent the</strong> A) proton B) positron C) antiproton D) neutrino E) electron <div style=padding-top: 35px> is used to represent the

A) proton
B) positron
C) antiproton
D) neutrino
E) electron
Question
Manganese-67 <strong>Manganese-67 is an unstable nuclide. Which type of radioactive decay is it most likely to undergo?</strong> A) gamma decay B) β<sup>+</sup>decay C) β<sup>−</sup> decay D) α decay E) spontaneous fission <div style=padding-top: 35px> is an unstable nuclide. Which type of radioactive decay is it most likely to undergo?

A) gamma decay
B) β+decay
C) β decay
D) α decay
E) spontaneous fission
Question
Radium-226 <strong>Radium-226 decays by alpha decay. What are A and Z for the daughter nuclide?</strong> A) 226, 92 B) 222, 92 C) 226, 88 D) 222, 88 E) 222, 86 <div style=padding-top: 35px> decays by alpha decay. What are A and Z for the daughter nuclide?

A) 226, 92
B) 222, 92
C) 226, 88
D) 222, 88
E) 222, 86
Question
The neutrino was proposed by Wolfgang Pauli to overcome the apparent violation of which of the following conservation laws in beta decay?

A) energy
B) momentum
C) energy and momentum
D) charge
E) energy, momentum, and charge
Question
What are the approximate binding energies per nucleon (in MeV) around A = 60 and A = 240, respectively?

A) 9.4, 7.0
B) 7.6, 8.7
C) 7.0, 9.4
D) 7.0, 8.0
E) 8.7, 7.6
Question
What is the binding energy of 12C? The mass of an atom of 12C is 12 u (exactly), the mass of an atom of 1H is 1.007825 u, and the mass of a neutron is 1.0086649 u.

A) 137 MeV
B) 104 MeV
C) 92.2 MeV
D) 46.1 MeV
E) 7.68 MeV
Question
What is the mass defect of an alpha particle?

A) 0.03038 u
B) 0.30377 u
C) 0.03147 u
D) 0.02928 u
Question
The three most common types of radiation emitted by radioactive nuclei were originally named alpha, beta, and gamma rays, after the first letters of the Greek alphabet. In order of increasing ability to penetrate matter, these are

A) alpha, beta, gamma.
B) beta, gamma, alpha.
C) gamma, alpha, beta.
D) alpha, gamma, beta.
E) gamma, beta, alpha.
Question
A unstable medium-sized nucleus with an equal number of protons and neutrons (Z = N) is most likely to decay via

A) gamma decay
B) β+ decay
C) β decay
D) α decay
E) spontaneous fission
Question
A sample contains 1.000 × 10−3 g of 40K. The half-life of 40K is 1.250 × 109 years. What is the activity of the sample?

A) 3300 Bq
B) 1250 Bq
C) 382.0 Bq
D) 265.0 Bq
E) 3.000 Bq
Question
The quantum-mechanical process by which an alpha particle makes it through the potential barrier holding it in the nucleus is called

A) leaping.
B) tunneling.
C) transmission.
D) fission.
E) transportation.
Question
If a 70 kg person received a dose of 3.2 mGy of gamma rays of RBE = 0.80, what is the biologically equivalent dose in rem?

A) 0.012
B) 0.18
C) 0.0026
D) 0.26
E) 18
Question
Carbon-14 has an activity of 0.25 Bq per gram of carbon for living organisms. The half-life of 14C is 5730 years. If a sample of charcoal from an archeological dig yields a 14C activity of 0.15 Bq per gram of carbon, how old is the material?

A) 6.6 × 103 y
B) 5.1 × 103 y
C) 4.2 × 103 y
D) 1.7 × 103 y
E) 1.4 × 103 y
Question
In radiation dosage, the factor that accounts for the impact of the type of radiation on the biological damage caused is the

A) absorbed dose.
B) biologically equivalent dose.
C) disintegration energy.
D) relative biological effectiveness.
E) mass defect.
Question
The half-life of 30P is 2.50 minutes. If a sample of 30P has 1.60 × 1010 nuclei present, what is its activity?

A) 4.6 × 107 Bq
B) 7.4 × 107 Bq
C) 6.4 × 109 Bq
D) 1.6 × 1010 Bq
E) 1.6 × 109 Bq
Question
A neutron star has approximately the same density as nuclear material. A typical neutron star has a radius of 8.0 km. Using the relationship r = (1.2 fm) A1/3 together with the mass of a neutron, 1.67 × 10−27kg, estimate the mass of a neutron star.

A) 0.65 × 1030 kg
B) 1.5 × 1030 kg
C) 0.16 × 1030 kg
D) 0.49 × 1030 kg
Question
If a nucleus has excited states above the ground state at energies 300 keV, 200 keV, and 80 keV, what gamma rays (in keV) may be expected from a collection of these excited nuclei? The ground-state energy is at 0. Choose the most complete set.

A) 300, 200, 80
B) 300, 200, 120, 80
C) 100, 120, 80
D) 300, 120, 200, 80, 180
E) 300, 220, 200, 120, 100, 80
Question
It is common to illustrate the density of nuclear matter by discussing the mass of a teaspoon of nuclear material. The volume of a teaspoon is about 5 cm3. Using the relationship r = (1.2 fm) A1/3 together with the mass of a proton, 1.67 × 10−27 kg, estimate the mass of a teaspoon of nuclear material.

A) 3.8 × 1011 kg
B) 9.6 × 1011kg
C) 1.53 × 1012 kg
D) 1.15 × 1012 kg
Question
The fusion reaction 2H + 3H → 4He + n releases 17.6 MeV of energy. The mass of 2H is 2.01410 u, the mass of 4He is 4.00260 u, and the mass of the neutron is 1.00866 u. What is the mass of 3H?

A) 2.9972 u
B) 3.0161 u
C) 3.0349 u
D) 3.0422 u
E) 2.9998 u
Question
If a nuclide has a half-life of 100 s, what is the corresponding mean lifetime?

A) 100 s
B) 144 s
C) 69 s
D) 50 s
E) 75 s
Question
The tokamak is a device designed to produce

A) tritium.
B) lithium hydride pellets.
C) carbon cycles.
D) controlled fission.
E) controlled fusion.
Question
A nuclear reactor periodically emits radioactive isotopes that travel outward at a speed of 1.0 km/s. If these isotopes have a half-life of 12 ms, what is the average distance they travel before decaying?

A) 12 μm
B) 12 m
C) 17 m
D) 1.0 km
E) 83 km
Question
What is the ratio of radii of the nuclides <strong>What is the ratio of radii of the nuclides and ?</strong> A) 1.66 B) 2.44 C) 5.95 D) 1.81 <div style=padding-top: 35px> and <strong>What is the ratio of radii of the nuclides and ?</strong> A) 1.66 B) 2.44 C) 5.95 D) 1.81 <div style=padding-top: 35px> ?

A) 1.66
B) 2.44
C) 5.95
D) 1.81
Question
What is the mass of 25.0 mCi of technetium-99m (Tc99m), which has a half-life of 6.00 h?

A) 4.74 ng
B) 50.7 pg
C) 1.05 ng
D) 3.29 ng
E) 25.0 mg
Question
If a 60 kg person received a biologically equivalent dose of 1.7 rem of radiation with an RBE of 1.1, what was the total energy absorbed by the person?

A) 1.7 J
B) 1.5 J
C) 0.93 J
D) 0.015 J
E) 0.26 J
Question
A beam of gamma rays strikes a lead target with a half-value layer of 0.40 cm. What fraction of the photons in the beam will penetrate to a depth of 1.20 cm or more?

A) 0.500
B) 0.400
C) 0.333
D) 0.250
E) 0.125
Question
In the fission reaction n + <strong>In the fission reaction n + → + ? + 4n, what are the Z and A for the unknown fission product?</strong> A) 37, 90 B) 35, 94 C) 36, 90 D) 37, 91 E) 36, 91 <div style=padding-top: 35px> <strong>In the fission reaction n + → + ? + 4n, what are the Z and A for the unknown fission product?</strong> A) 37, 90 B) 35, 94 C) 36, 90 D) 37, 91 E) 36, 91 <div style=padding-top: 35px> + ? + 4n, what are the Z and A for the unknown fission product?

A) 37, 90
B) 35, 94
C) 36, 90
D) 37, 91
E) 36, 91
Question
The half-life of 30P is 2.50 minutes. If a sample of 30P has 1.60 × 1010 nuclei present initially, how many remain after 10.0 minutes?

A) 0.800 × 1010
B) 0.400 × 1010
C) 0.200 × 1010
D) 0.100 × 1010
E) 0.050 × 1010
Question
Barium-137 emits a gamma ray in the decay from an excited state (137Ba*). What is the resulting daughter nuclide?

A) (137Cs)
B)( 137Ba)
C)( 137La)
D)( 136Ba)
E) (136Cs)
Question
Which of the following nuclear reactions is forbidden?

A) <strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub> <div style=padding-top: 35px> +
<strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub> <div style=padding-top: 35px>
<strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub> <div style=padding-top: 35px> + 2
<strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub> <div style=padding-top: 35px>
B) <strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub> <div style=padding-top: 35px> +
<strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub> <div style=padding-top: 35px>
<strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub> <div style=padding-top: 35px>
C) <strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub> <div style=padding-top: 35px> +
<strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub> <div style=padding-top: 35px> → 2
<strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub> <div style=padding-top: 35px>
D) n1 + <strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub> <div style=padding-top: 35px>
<strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub> <div style=padding-top: 35px> n +
<strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub> <div style=padding-top: 35px> o + 3 n1
Question
A neutron star has approximately the same density as nuclear material. If a neutron star has the same mass as the Sun, 1.99 × 1030 kg, what would be its radius? Use the relationship r = (1.2 fm) A1/3 together with the mass of a neutron, 1.67 × 10−27kg, to estimate the answer.

A) 12 km
B) 19 km
C) 13 km
D) 9.8 km
Question
For a sample of a given radioactive isotope, the ratio of the number of atoms of the isotope at time t to the number at time t + T1/2 is

A) always 2.
B) dependent on how long it has been since t = 0.
C) Dependent upon what the value of T1/2.
D) always 1/2.
E) might be any number less than 1/2.
Question
The binding energy per nucleon in a nucleus is

A) the same for all nuclei.
B) the greatest for the largest nuclei.
C) the greatest for the smallest nuclei.
D) the greatest for medium-sized nuclei.
Question
Stars are powered by nuclear fusion in their cores, which, starting with hydrogen, produce progressively heavier elements. Near the end of a star's lifetime, stellar cores produce iron by fusion. The reason this process doesn't proceed beyond iron is that

A) iron in stellar cores tends to undergo spontaneous fission.
B) iron is the most dense material in solid form.
C) iron nuclei have the greatest binding energy per nucleon.
D) iron is ferromagnetic.
E) iron is heavy.
Question
The burning of one gallon of gasoline releases about 2 × 108 J. If each nuclear fission reaction in a nuclear power plant releases 173 MeV, what quantity of uranium-235 would produce the same energy as burning a gallon of gasoline?

A) 28 g
B) 0.28 g
C) 2.8 g
D) 0.0028 g
Question
Complete the following induced reaction: <strong>Complete the following induced reaction: + → + ?</strong> A) B) C) D) <div style=padding-top: 35px> + <strong>Complete the following induced reaction: + → + ?</strong> A) B) C) D) <div style=padding-top: 35px> <strong>Complete the following induced reaction: + → + ?</strong> A) B) C) D) <div style=padding-top: 35px> + ?

A) <strong>Complete the following induced reaction: + → + ?</strong> A) B) C) D) <div style=padding-top: 35px>
B) <strong>Complete the following induced reaction: + → + ?</strong> A) B) C) D) <div style=padding-top: 35px>
C) <strong>Complete the following induced reaction: + → + ?</strong> A) B) C) D) <div style=padding-top: 35px>
D) <strong>Complete the following induced reaction: + → + ?</strong> A) B) C) D) <div style=padding-top: 35px>
Question
For a selected atom in a sample of a radioactively decaying isotope, the probability that it will decay during a time interval of a specified length is

A) dependent on how long it has been since t = 0.
B) independent of when the time interval starts relative to the current time.
C) dependent upon how old the atom is.
D) fundamentally unpredictable.
Question
What is the radius of the nuclide <strong>What is the radius of the nuclide ?</strong> A) 7.4 fm B) 5.4 fm C) 290 fm D) 1.8 fm <div style=padding-top: 35px> ?

A) 7.4 fm
B) 5.4 fm
C) 290 fm
D) 1.8 fm
Question
A nuclear chain reaction is possible (for the isotopes that can participate in a chain reaction) because when each nucleus fissions, it produces

A) more neutrons than are required to induce fission in one nucleus.
B) more energy than is required to induce fission in one nucleus.
C) daughters that can also be induced to fission to produce more energy.
D) daughters that can fuse together to make more of the same isotope.
Question
Carbon-14 has a half-life of 5730 years. You discover a single carbon-14 nucleus in your laboratory. What is the probability that it will decay in the next 24 hours?

A) 4.9 × 10−7
B) 3.3 × 10−7
C) 4.8 × 10−7
D) It cannot be known unless the age of the nucleus is known.
Question
Fusion normally involves relatively light nuclei because

A) fusion produces heavier nuclei, and the binding energy per nucleon decreases with atomic number for low atomic numbers.
B) they are the most plentiful.
C) they are easier to ionize and thus to cause their nuclei to coalesce.
D) fusion produces heavier nuclei, and the binding energy per nucleon increases with atomic number for low atomic numbers.
Question
If each nuclear fission reaction in a nuclear power plant releases 173 MeV, what quantity of uranium-235 must be consumed each day to keep a 350 MW plant producing at capacity? Assume the power plant is 35% efficient.

A) 5.2 kg
B) 1.8 kg
C) 0.43 kg
D) 1.2 kg
Question
Compared to the sum of the masses of its constituents, the mass of a nucleus (other than 1H) is

A) the same.
B) greater.
C) less.
D) could be any of the above.
Question
When a nucleus of a given isotope decays, it

A) cannot produce a daughter with the same mass number.
B) always produces a daughter with a lower mass number.
C) cannot produce a daughter with a lower mass number.
D) cannot produce a daughter with a higher mass number.
E) always produces a daughter with a higher mass number.
Question
Nuclear fuel enrichment is the process by which the concentration of what component of nuclear fuel is increased artificially?

A) Plutonium-239
B) Uranium-235
C) Deuterium
D) Uranium-238
Question
How many neutrons are produced in the following induced fission reaction? n1 + <strong>How many neutrons are produced in the following induced fission reaction? n<sub>1</sub> + → r + e + neutrons</strong> A) 2 B) 0 C) 1 D) 3 <div style=padding-top: 35px> <strong>How many neutrons are produced in the following induced fission reaction? n<sub>1</sub> + → r + e + neutrons</strong> A) 2 B) 0 C) 1 D) 3 <div style=padding-top: 35px> r + <strong>How many neutrons are produced in the following induced fission reaction? n<sub>1</sub> + → r + e + neutrons</strong> A) 2 B) 0 C) 1 D) 3 <div style=padding-top: 35px> e + neutrons

A) 2
B) 0
C) 1
D) 3
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Deck 29: Nuclear Physics
1
16O, 17O, and 18O are ________ of oxygen.

A) isotones
B) isotopes
C) isobars
D) isomers
E) isotherms
isotopes
2
What is the radius of a nuclide with mass number 190?

A) 190 fm
B) 5.7 fm
C) 6.9 fm
D) 4.8 fm
E) 0.19 fm
6.9 fm
3
One mole of <strong>One mole of has a mass of approximately</strong> A) 13 g B) 27 g C) 14 g D) 20 g E) 40 g has a mass of approximately

A) 13 g
B) 27 g
C) 14 g
D) 20 g
E) 40 g
27 g
4
One mole of 40Ar (Z = 18) has about what mass?

A) 18 g
B) 22 g
C) 40 kg
D) 40 g
E) 22 kg
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5
Isotopes of an element have the same number of ________ but different numbers of _______.

A) neutrons, protons
B) electrons, protons
C) protons, neutrons
D) neutrons, electrons
E) protons, electrons
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6
What is the symbol for the nuclide with 38 protons and 50 neutrons?

A) <strong>What is the symbol for the nuclide with 38 protons and 50 neutrons?</strong> A) B) C) D)
B) <strong>What is the symbol for the nuclide with 38 protons and 50 neutrons?</strong> A) B) C) D)
C) <strong>What is the symbol for the nuclide with 38 protons and 50 neutrons?</strong> A) B) C) D)
D) <strong>What is the symbol for the nuclide with 38 protons and 50 neutrons?</strong> A) B) C) D)
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7
How many neutrons are in a 35Cl nucleus?

A) 17
B) 18
C) 16
D) 19
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8
In the reaction n + 12C → α + ?, what is the unknown product nucleus?

A) (13C)
B) (9C)
C) (10B)
D) (9B)
E) (9Be)
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9
How many neutrons are in a 15C nucleus?

A) 7
B) 8
C) 6
D) 9
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10
What nuclide has 14 protons and 16 neutrons?

A) (16S)
B) (14O)
C) (30Si)
D) (30S)
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11
In the reaction 4He + 9Be → n + 12C, how much energy is released or absorbed? The masses of the neutral atoms are as follows: the mas of 4He is 4.0026033 u, the mass of 9Be is 9.0121831 u, the mass of n is 1.0086649 u, and the mass of 12C is 12.0000000 u.

A) 4.21 MeV absorbed
B) 4.21 MeV released
C) 5.70 MeV absorbed
D) 5.70 MeV released
E) 6.34 MeV released
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12
What is the density of the 238U nucleus?

A) 2.3 × 1017 kg/m3
B) 9.6 × 1014 kg/m3
C) 3.2 × 1014 kg/m3
D) 2.38 × 105 kg/m3
E) 1.0 × 103 kg/m3
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13
What is the volume of the <strong>What is the volume of the nucleus?</strong> A) 6.7 × 10<sup>-43</sup> m<sup>3</sup> B) 5.2 × 10<sup>-42</sup> m<sup>3</sup> C) 1.7 × 10<sup>-42</sup> m<sup>3</sup> D) 1.6 × 10<sup>-42</sup> m<sup>3</sup> E) 1.2 × 10<sup>-12</sup> m<sup>3</sup> nucleus?

A) 6.7 × 10-43 m3
B) 5.2 × 10-42 m3
C) 1.7 × 10-42 m3
D) 1.6 × 10-42 m3
E) 1.2 × 10-12 m3
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14
What is the symbol for the nuclide with 46 protons and 92 neutrons?

A) <strong>What is the symbol for the nuclide with 46 protons and 92 neutrons?</strong> A) B) C) D)
B) <strong>What is the symbol for the nuclide with 46 protons and 92 neutrons?</strong> A) B) C) D)
C) <strong>What is the symbol for the nuclide with 46 protons and 92 neutrons?</strong> A) B) C) D)
D) <strong>What is the symbol for the nuclide with 46 protons and 92 neutrons?</strong> A) B) C) D)
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15
How many atoms are in one gram of <strong>How many atoms are in one gram of ?</strong> A) 1.63 × 10<sup>25</sup> B) 6.02 × 10<sup>22</sup> C) 1.51 × 10<sup>23</sup> D) 2.23 × 10<sup>25</sup> E) 2.23 × 10<sup>22</sup> ?

A) 1.63 × 1025
B) 6.02 × 1022
C) 1.51 × 1023
D) 2.23 × 1025
E) 2.23 × 1022
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16
One pg (picogram) of 40K has how many nuclei?

A) 6.0 × 1017
B) 6.0 × 1011
C) 1.5 × 1022
D) 3.0 × 1011
E) 1.5 × 1010
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17
The particles in the nucleus referred to as nucleons are

A) electrons and protons.
B) protons and neutrons.
C) neutrons and electrons.
D) electrons and photons.
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18
If a nucleus has a volume of 1.0 × 10-42 m3, what is its mass number?

A) 1
B) 25
C) 100
D) 138
E) 174
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19
What is the element X for the nuclide <strong>What is the element X for the nuclide ?</strong> A) Zn B) Se C) Gd D) Ge ?

A) Zn
B) Se
C) Gd
D) Ge
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20
A nuclide whose "generic" symbol is <strong>A nuclide whose generic symbol is would have how many protons and neutrons, respectively?</strong> A) 64, 30 B) 30, 64 C) 30, 34 D) 34, 30 would have how many protons and neutrons, respectively?

A) 64, 30
B) 30, 64
C) 30, 34
D) 34, 30
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21
Of the following quantities, which (if any) is not conserved in radioactive decay?

A) energy
B) momentum
C) charge
D) angular momentum
E) All these quantities are conserved.
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22
What is the binding energy of an alpha particle?

A) 2.20 MeV
B) 50.0 MeV
C) 28.3 MeV
D) 21.2 MeV
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23
In the nucleus, what are the maximum number of neutrons in a neutron energy level, and the maximum number of protons in a proton energy level, respectively?

A) 1, 1
B) 1, 2
C) 2, 1
D) 2, 2
E) 2, 8
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24
The isotope A281 decays by beta-minus decay. What is the daughter nucleus?

A) Mg28
B) A271
C) Na24
D) Si28
E) Si27
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25
Of those elements listed below, the binding energy per nucleon reaches a maximum closest to

A) oxygen.
B) iron.
C) gold.
D) tungsten.
E) uranium.
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26
Who discovered radioactivity?

A) Niels Bohr
B) Marie Curie
C) Albert Einstein
D) Henri Becquerel
E) Richard Feynman
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27
The isotope A261 decays by beta-plus decay. What is the daughter nucleus?

A) (27Al)
B) (25Al)
C) (26Mg)
D) (26Si)
E) (26Al)
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28
The majority of the average yearly radiation exposure from nonmedical sources, for people living in the United States, comes from

A) eating bananas.
B) cosmic rays.
C) naturally occurring uranium.
D) radon gas.
E) smoke detectors.
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29
In beta-minus decay, which neutrino is emitted?

A) the electron neutrino
B) the electron antineutrino
C) the muon neutrino
D) the muon antineutrino
E) the tau neutrino
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30
What is the binding energy per nucleon for 12C?

A) 137 MeV
B) 104 MeV
C) 92.2 MeV
D) 46.1 MeV
E) 7.68 MeV
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31
When 241 Am decays by emitting an alpha particle of kinetic energy 5.5 MeV, what is the recoil energy of the daughter nucleus?

A) 5.5 MeV
B) 1.3 MeV
C) 0.88 MeV
D) 0.093 MeV
E) 0.091 MeV
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32
The symbol <strong>The symbol is used to represent the</strong> A) proton B) positron C) antiproton D) neutrino E) electron is used to represent the

A) proton
B) positron
C) antiproton
D) neutrino
E) electron
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33
Manganese-67 <strong>Manganese-67 is an unstable nuclide. Which type of radioactive decay is it most likely to undergo?</strong> A) gamma decay B) β<sup>+</sup>decay C) β<sup>−</sup> decay D) α decay E) spontaneous fission is an unstable nuclide. Which type of radioactive decay is it most likely to undergo?

A) gamma decay
B) β+decay
C) β decay
D) α decay
E) spontaneous fission
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34
Radium-226 <strong>Radium-226 decays by alpha decay. What are A and Z for the daughter nuclide?</strong> A) 226, 92 B) 222, 92 C) 226, 88 D) 222, 88 E) 222, 86 decays by alpha decay. What are A and Z for the daughter nuclide?

A) 226, 92
B) 222, 92
C) 226, 88
D) 222, 88
E) 222, 86
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35
The neutrino was proposed by Wolfgang Pauli to overcome the apparent violation of which of the following conservation laws in beta decay?

A) energy
B) momentum
C) energy and momentum
D) charge
E) energy, momentum, and charge
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36
What are the approximate binding energies per nucleon (in MeV) around A = 60 and A = 240, respectively?

A) 9.4, 7.0
B) 7.6, 8.7
C) 7.0, 9.4
D) 7.0, 8.0
E) 8.7, 7.6
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37
What is the binding energy of 12C? The mass of an atom of 12C is 12 u (exactly), the mass of an atom of 1H is 1.007825 u, and the mass of a neutron is 1.0086649 u.

A) 137 MeV
B) 104 MeV
C) 92.2 MeV
D) 46.1 MeV
E) 7.68 MeV
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38
What is the mass defect of an alpha particle?

A) 0.03038 u
B) 0.30377 u
C) 0.03147 u
D) 0.02928 u
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39
The three most common types of radiation emitted by radioactive nuclei were originally named alpha, beta, and gamma rays, after the first letters of the Greek alphabet. In order of increasing ability to penetrate matter, these are

A) alpha, beta, gamma.
B) beta, gamma, alpha.
C) gamma, alpha, beta.
D) alpha, gamma, beta.
E) gamma, beta, alpha.
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40
A unstable medium-sized nucleus with an equal number of protons and neutrons (Z = N) is most likely to decay via

A) gamma decay
B) β+ decay
C) β decay
D) α decay
E) spontaneous fission
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41
A sample contains 1.000 × 10−3 g of 40K. The half-life of 40K is 1.250 × 109 years. What is the activity of the sample?

A) 3300 Bq
B) 1250 Bq
C) 382.0 Bq
D) 265.0 Bq
E) 3.000 Bq
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42
The quantum-mechanical process by which an alpha particle makes it through the potential barrier holding it in the nucleus is called

A) leaping.
B) tunneling.
C) transmission.
D) fission.
E) transportation.
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43
If a 70 kg person received a dose of 3.2 mGy of gamma rays of RBE = 0.80, what is the biologically equivalent dose in rem?

A) 0.012
B) 0.18
C) 0.0026
D) 0.26
E) 18
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44
Carbon-14 has an activity of 0.25 Bq per gram of carbon for living organisms. The half-life of 14C is 5730 years. If a sample of charcoal from an archeological dig yields a 14C activity of 0.15 Bq per gram of carbon, how old is the material?

A) 6.6 × 103 y
B) 5.1 × 103 y
C) 4.2 × 103 y
D) 1.7 × 103 y
E) 1.4 × 103 y
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45
In radiation dosage, the factor that accounts for the impact of the type of radiation on the biological damage caused is the

A) absorbed dose.
B) biologically equivalent dose.
C) disintegration energy.
D) relative biological effectiveness.
E) mass defect.
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46
The half-life of 30P is 2.50 minutes. If a sample of 30P has 1.60 × 1010 nuclei present, what is its activity?

A) 4.6 × 107 Bq
B) 7.4 × 107 Bq
C) 6.4 × 109 Bq
D) 1.6 × 1010 Bq
E) 1.6 × 109 Bq
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47
A neutron star has approximately the same density as nuclear material. A typical neutron star has a radius of 8.0 km. Using the relationship r = (1.2 fm) A1/3 together with the mass of a neutron, 1.67 × 10−27kg, estimate the mass of a neutron star.

A) 0.65 × 1030 kg
B) 1.5 × 1030 kg
C) 0.16 × 1030 kg
D) 0.49 × 1030 kg
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48
If a nucleus has excited states above the ground state at energies 300 keV, 200 keV, and 80 keV, what gamma rays (in keV) may be expected from a collection of these excited nuclei? The ground-state energy is at 0. Choose the most complete set.

A) 300, 200, 80
B) 300, 200, 120, 80
C) 100, 120, 80
D) 300, 120, 200, 80, 180
E) 300, 220, 200, 120, 100, 80
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49
It is common to illustrate the density of nuclear matter by discussing the mass of a teaspoon of nuclear material. The volume of a teaspoon is about 5 cm3. Using the relationship r = (1.2 fm) A1/3 together with the mass of a proton, 1.67 × 10−27 kg, estimate the mass of a teaspoon of nuclear material.

A) 3.8 × 1011 kg
B) 9.6 × 1011kg
C) 1.53 × 1012 kg
D) 1.15 × 1012 kg
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50
The fusion reaction 2H + 3H → 4He + n releases 17.6 MeV of energy. The mass of 2H is 2.01410 u, the mass of 4He is 4.00260 u, and the mass of the neutron is 1.00866 u. What is the mass of 3H?

A) 2.9972 u
B) 3.0161 u
C) 3.0349 u
D) 3.0422 u
E) 2.9998 u
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51
If a nuclide has a half-life of 100 s, what is the corresponding mean lifetime?

A) 100 s
B) 144 s
C) 69 s
D) 50 s
E) 75 s
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52
The tokamak is a device designed to produce

A) tritium.
B) lithium hydride pellets.
C) carbon cycles.
D) controlled fission.
E) controlled fusion.
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53
A nuclear reactor periodically emits radioactive isotopes that travel outward at a speed of 1.0 km/s. If these isotopes have a half-life of 12 ms, what is the average distance they travel before decaying?

A) 12 μm
B) 12 m
C) 17 m
D) 1.0 km
E) 83 km
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54
What is the ratio of radii of the nuclides <strong>What is the ratio of radii of the nuclides and ?</strong> A) 1.66 B) 2.44 C) 5.95 D) 1.81 and <strong>What is the ratio of radii of the nuclides and ?</strong> A) 1.66 B) 2.44 C) 5.95 D) 1.81 ?

A) 1.66
B) 2.44
C) 5.95
D) 1.81
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55
What is the mass of 25.0 mCi of technetium-99m (Tc99m), which has a half-life of 6.00 h?

A) 4.74 ng
B) 50.7 pg
C) 1.05 ng
D) 3.29 ng
E) 25.0 mg
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56
If a 60 kg person received a biologically equivalent dose of 1.7 rem of radiation with an RBE of 1.1, what was the total energy absorbed by the person?

A) 1.7 J
B) 1.5 J
C) 0.93 J
D) 0.015 J
E) 0.26 J
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57
A beam of gamma rays strikes a lead target with a half-value layer of 0.40 cm. What fraction of the photons in the beam will penetrate to a depth of 1.20 cm or more?

A) 0.500
B) 0.400
C) 0.333
D) 0.250
E) 0.125
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58
In the fission reaction n + <strong>In the fission reaction n + → + ? + 4n, what are the Z and A for the unknown fission product?</strong> A) 37, 90 B) 35, 94 C) 36, 90 D) 37, 91 E) 36, 91 <strong>In the fission reaction n + → + ? + 4n, what are the Z and A for the unknown fission product?</strong> A) 37, 90 B) 35, 94 C) 36, 90 D) 37, 91 E) 36, 91 + ? + 4n, what are the Z and A for the unknown fission product?

A) 37, 90
B) 35, 94
C) 36, 90
D) 37, 91
E) 36, 91
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59
The half-life of 30P is 2.50 minutes. If a sample of 30P has 1.60 × 1010 nuclei present initially, how many remain after 10.0 minutes?

A) 0.800 × 1010
B) 0.400 × 1010
C) 0.200 × 1010
D) 0.100 × 1010
E) 0.050 × 1010
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60
Barium-137 emits a gamma ray in the decay from an excited state (137Ba*). What is the resulting daughter nuclide?

A) (137Cs)
B)( 137Ba)
C)( 137La)
D)( 136Ba)
E) (136Cs)
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61
Which of the following nuclear reactions is forbidden?

A) <strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub> +
<strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub>
<strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub> + 2
<strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub>
B) <strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub> +
<strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub>
<strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub>
C) <strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub> +
<strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub> → 2
<strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub>
D) n1 + <strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub>
<strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub> n +
<strong>Which of the following nuclear reactions is forbidden?</strong> A) + → + 2 B) + → C) + → 2 D) n<sub>1</sub> + → n + o + 3 n<sub>1</sub> o + 3 n1
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62
A neutron star has approximately the same density as nuclear material. If a neutron star has the same mass as the Sun, 1.99 × 1030 kg, what would be its radius? Use the relationship r = (1.2 fm) A1/3 together with the mass of a neutron, 1.67 × 10−27kg, to estimate the answer.

A) 12 km
B) 19 km
C) 13 km
D) 9.8 km
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63
For a sample of a given radioactive isotope, the ratio of the number of atoms of the isotope at time t to the number at time t + T1/2 is

A) always 2.
B) dependent on how long it has been since t = 0.
C) Dependent upon what the value of T1/2.
D) always 1/2.
E) might be any number less than 1/2.
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64
The binding energy per nucleon in a nucleus is

A) the same for all nuclei.
B) the greatest for the largest nuclei.
C) the greatest for the smallest nuclei.
D) the greatest for medium-sized nuclei.
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65
Stars are powered by nuclear fusion in their cores, which, starting with hydrogen, produce progressively heavier elements. Near the end of a star's lifetime, stellar cores produce iron by fusion. The reason this process doesn't proceed beyond iron is that

A) iron in stellar cores tends to undergo spontaneous fission.
B) iron is the most dense material in solid form.
C) iron nuclei have the greatest binding energy per nucleon.
D) iron is ferromagnetic.
E) iron is heavy.
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66
The burning of one gallon of gasoline releases about 2 × 108 J. If each nuclear fission reaction in a nuclear power plant releases 173 MeV, what quantity of uranium-235 would produce the same energy as burning a gallon of gasoline?

A) 28 g
B) 0.28 g
C) 2.8 g
D) 0.0028 g
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67
Complete the following induced reaction: <strong>Complete the following induced reaction: + → + ?</strong> A) B) C) D) + <strong>Complete the following induced reaction: + → + ?</strong> A) B) C) D) <strong>Complete the following induced reaction: + → + ?</strong> A) B) C) D) + ?

A) <strong>Complete the following induced reaction: + → + ?</strong> A) B) C) D)
B) <strong>Complete the following induced reaction: + → + ?</strong> A) B) C) D)
C) <strong>Complete the following induced reaction: + → + ?</strong> A) B) C) D)
D) <strong>Complete the following induced reaction: + → + ?</strong> A) B) C) D)
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68
For a selected atom in a sample of a radioactively decaying isotope, the probability that it will decay during a time interval of a specified length is

A) dependent on how long it has been since t = 0.
B) independent of when the time interval starts relative to the current time.
C) dependent upon how old the atom is.
D) fundamentally unpredictable.
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69
What is the radius of the nuclide <strong>What is the radius of the nuclide ?</strong> A) 7.4 fm B) 5.4 fm C) 290 fm D) 1.8 fm ?

A) 7.4 fm
B) 5.4 fm
C) 290 fm
D) 1.8 fm
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70
A nuclear chain reaction is possible (for the isotopes that can participate in a chain reaction) because when each nucleus fissions, it produces

A) more neutrons than are required to induce fission in one nucleus.
B) more energy than is required to induce fission in one nucleus.
C) daughters that can also be induced to fission to produce more energy.
D) daughters that can fuse together to make more of the same isotope.
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71
Carbon-14 has a half-life of 5730 years. You discover a single carbon-14 nucleus in your laboratory. What is the probability that it will decay in the next 24 hours?

A) 4.9 × 10−7
B) 3.3 × 10−7
C) 4.8 × 10−7
D) It cannot be known unless the age of the nucleus is known.
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72
Fusion normally involves relatively light nuclei because

A) fusion produces heavier nuclei, and the binding energy per nucleon decreases with atomic number for low atomic numbers.
B) they are the most plentiful.
C) they are easier to ionize and thus to cause their nuclei to coalesce.
D) fusion produces heavier nuclei, and the binding energy per nucleon increases with atomic number for low atomic numbers.
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73
If each nuclear fission reaction in a nuclear power plant releases 173 MeV, what quantity of uranium-235 must be consumed each day to keep a 350 MW plant producing at capacity? Assume the power plant is 35% efficient.

A) 5.2 kg
B) 1.8 kg
C) 0.43 kg
D) 1.2 kg
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74
Compared to the sum of the masses of its constituents, the mass of a nucleus (other than 1H) is

A) the same.
B) greater.
C) less.
D) could be any of the above.
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75
When a nucleus of a given isotope decays, it

A) cannot produce a daughter with the same mass number.
B) always produces a daughter with a lower mass number.
C) cannot produce a daughter with a lower mass number.
D) cannot produce a daughter with a higher mass number.
E) always produces a daughter with a higher mass number.
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76
Nuclear fuel enrichment is the process by which the concentration of what component of nuclear fuel is increased artificially?

A) Plutonium-239
B) Uranium-235
C) Deuterium
D) Uranium-238
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77
How many neutrons are produced in the following induced fission reaction? n1 + <strong>How many neutrons are produced in the following induced fission reaction? n<sub>1</sub> + → r + e + neutrons</strong> A) 2 B) 0 C) 1 D) 3 <strong>How many neutrons are produced in the following induced fission reaction? n<sub>1</sub> + → r + e + neutrons</strong> A) 2 B) 0 C) 1 D) 3 r + <strong>How many neutrons are produced in the following induced fission reaction? n<sub>1</sub> + → r + e + neutrons</strong> A) 2 B) 0 C) 1 D) 3 e + neutrons

A) 2
B) 0
C) 1
D) 3
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