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Deck 29: Nuclear Physics

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Question
What is the symbol for the nuclide with 38 protons and 50 neutrons?

A) 8850\begin{array}{r}88 \\ 50\end{array}
B) 8858\begin{array}{r}88 \\ \quad 58\end{array}
C) Sn5038\mathrm{Sn}_{50}^{38}
D) 5038\begin{array}{r}50 \\ 38\end{array}
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Question
What is the symbol for the nuclide with 46 protons and 92 neutrons?

A) U132\mathrm{U}^{132}
B) 13846\quad \begin{gathered}138 \\ 46\end{gathered}
C) U9246\mathrm{U}_{92}^{46}
D) Pd9246\mathrm{Pd} \frac{92}{46}
Question
One mole of Al1327\mathrm{Al}_{13}^{27} has a mass of approximately

A) 14 g14 \mathrm{~g}
B) 27 g27 \mathrm{~g}
C) 20 g20 \mathrm{~g}
D) 40 g40 \mathrm{~g}
E) 13 g13 \mathrm{~g}
Question
How many atoms are in one gram of Al1327\mathrm{Al}_{13}^{27} ?

A) 6.02×10226.02 \times 10^{22}
B) 1.51×10231.51 \times 10^{23}
C) 2.23×10222.23 \times 10^{22}
D) 2.23×10252.23 \times 10^{25}
E) 1.63×10251.63 \times 10^{25}
Question
What nuclide has 14 protons and 16 neutrons?

A) 14O14 \mathrm{O}
B) 30 S30 \mathrm{~S}
C) 16 S16 \mathrm{~S}
D) 30Si30 \mathrm{Si}
Question
One mole of 40Ar(Z=18)40 \mathrm{Ar}(\mathrm{Z}=18) has about what mass?

A) 22 kg22 \mathrm{~kg}
B) 18 g18 \mathrm{~g}
C) 22 g22 \mathrm{~g}
D) 40 g40 \mathrm{~g}
E) 40 kg40 \mathrm{~kg}
Question
One pg (picogram) of 40 K40 \mathrm{~K} has how many nuclei?

A) 1.5×10101.5 \times 1010
B) 6.0×10116.0 \times 1011
C) 3.0×10113.0 \times 1011
D) 6.0×10176.0 \times 1017
E) 1.5×10221.5 \times 1022
Question
What is the radius of a nuclide with mass number 190 ?

A) 6.9fm6.9 \mathrm{fm}
B) 0.19fm0.19 \mathrm{fm}
C) 190fm190 \mathrm{fm}
D) 5.7fm5.7 \mathrm{fm}
E) 4.8fm4.8 \mathrm{fm}
Question
What is the volume of the U92238U_{92}^{238} nucleus?

A) 1.7×1042 m31.7 \times 10-42 \mathrm{~m}^{3}
B) 6.7×1043 m36.7 \times 10-43 \mathrm{~m}^{3}
C) 5.2×1042 m35.2 \times 10^{-42} \mathrm{~m}^{3}
D) 1.2×1012 m31.2 \times 10^{-12} \mathrm{~m}^{3}
E) 1.6×1042 m31.6 \times 10^{-42} \mathrm{~m}^{3}
Question
What is the density of the 238U238 \mathrm{U} nucleus?

A) 3.2×1014 kg/m33.2 \times 10^{14} \mathrm{~kg} / \mathrm{m}^{3}
B) 1.0×103 kg/m31.0 \times 10^{3} \mathrm{~kg} / \mathrm{m}^{3}
C) 2.38×105 kg/m32.38 \times 10^{5} \mathrm{~kg} / \mathrm{m}^{3}
D) 9.6×1014 kg/m39.6 \times 1014 \mathrm{~kg} / \mathrm{m}^{3}
E) 2.3×1017 kg/m32.3 \times 1017 \mathrm{~kg} / \mathrm{m}^{3}
Question
In the reaction n+12Cα+n+12 C \rightarrow \alpha+ ?, what is the unknown product nucleus?

A) 9 B9 \mathrm{~B}
B) 9C9 \mathrm{C}
C) 13C13 \mathrm{C}
D) 9Be9 \mathrm{Be}
E) 10 B10 \mathrm{~B}
Question
In the reaction 4He+9Ben+12C4 \mathrm{He}+{ }^{9} \mathrm{Be} \rightarrow \mathrm{n}+{ }^{12} \mathrm{C} , how much energy is released or absorbed? The masses of the neutral atoms are as follows: the mas of 4He4 \mathrm{He} is 4.0026033u4.0026033 \mathrm{u} , the mass of 9Be{ }^{9} \mathrm{Be} is 9.0121831u9.0121831 \mathrm{u} , the mass of n\mathrm{n} is 1.0086649u1.0086649 \mathrm{u} , and the mass of 12C12 \mathrm{C} is 12.0000000u12.0000000 \mathrm{u} .

A) 5.70MeV5.70 \mathrm{MeV} released
B) 4.21MeV4.21 \mathrm{MeV} released
C) 4.21MeV4.21 \mathrm{MeV} absorbed
D) 5.70MeV5.70 \mathrm{MeV} absorbed
E) 6.34MeV6.34 \mathrm{MeV} released
Question
What is the binding energy per nucleon for 12C{ }^{12} \mathrm{C} ?

A) 7.68MeV7.68 \mathrm{MeV}
B) 46.1MeV46.1 \mathrm{MeV}
C) 104MeV104 \mathrm{MeV}
D) 137MeV137 \mathrm{MeV}
E) 92.2MeV92.2 \mathrm{MeV}
Question
What are the approximate binding energies per nucleon (in MeV\mathrm{MeV} ) around A=60\mathrm{A}=60 and A=240\mathrm{A}=240 , respectively?

A) 9.4,7.09.4,7.0
B) 7.0,9.47.0,9.4
C) 7.0,8.07.0,8.0
D) 7.6,8.77.6,8.7
E) 8.7,7.68.7,7.6
Question
What is the binding energy of an alpha particle?

A) 28.3MeV28.3 \mathrm{MeV}
B) 50.0MeV50.0 \mathrm{MeV}
C) 2.20MeV2.20 \mathrm{MeV}
D) 21.2MeV21.2 \mathrm{MeV}
Question
What is the mass defect of an alpha particle?

A) 0.03147u0.03147 \mathrm{u}
B) 0.30377u0.30377 \mathrm{u}
C) 0.02928u0.02928 \mathrm{u}
D) 0.03038u0.03038 \mathrm{u}
Question
When 241 Am decays by emitting an alpha particle of kinetic energy 5.5MeV5.5 \mathrm{MeV} , what is the recoil energy of the daughter nucleus?

A) 0.091MeV0.091 \mathrm{MeV}
B) 0.093MeV0.093 \mathrm{MeV}
C) 1.3MeV1.3 \mathrm{MeV}
D) 5.5MeV5.5 \mathrm{MeV}
E) 0.88MeV0.88 \mathrm{MeV}
Question
The isotope A281A_{28} 1 decays by beta-minus decay. What is the daughter nucleus?

A) Si28\mathrm{Si}_{28}
B) Si27\mathrm{Si}_{27}
C) Mg28\mathrm{Mg}_{28}
D) A271\mathrm{A}_{27} 1
E) Na24\mathrm{Na}_{24}
Question
The isotope A261\mathrm{A}_{26} 1 decays by beta-plus decay. What is the daughter nucleus?

A) 26Al26 \mathrm{Al}
B) 26Mg26 \mathrm{Mg}
C) 27Al27 \mathrm{Al}
D) 25Al25 \mathrm{Al}
E) 26Si26 \mathrm{Si}
Question
Barium-137 emits a gamma ray in the decay from an excited state (137Ba)\left({ }^{137} \mathrm{Ba}^{*}\right) . What is the resulting daughter nuclide?

A) 136Cs136 \mathrm{Cs}
B) 137La137 \mathrm{La}
C) 137Ba137 \mathrm{Ba}
D) 137Cs137 \mathrm{Cs}
E) 136Ba136 \mathrm{Ba}
Question
The half-life of 30P is 2.50 minutes. If a sample of 30P has 1.60×10101.60 \times 1010 nuclei present initially, how many remain after 10.0 minutes?

A) 0.050×10100.050 \times 1010
B) 0.400×10100.400 \times 1010
C) 0.200×10100.200 \times 1010
D) 0.100×10100.100 \times 1010
E) 0.800×10100.800 \times 1010
Question
The half-life of 30P30 \mathrm{P} is 2.50 minutes. If a sample of 30P30 \mathrm{P} has 1.60×10101.60 \times 10^{10} nuclei present, what is its activity?

A) 1.6×109 Bq1.6 \times 10^{9} \mathrm{~Bq}
B) 6.4×109 Bq6.4 \times 10^{9} \mathrm{~Bq}
C) 1.6×1010 Bq1.6 \times 10^{10} \mathrm{~Bq}
D) 7.4×107 Bq7.4 \times 10^{7} \mathrm{~Bq}
E) 4.6×107 Bq4.6 \times 10^{7} \mathrm{~Bq}
Question
A sample contains 1.000×103 g1.000 \times 10^{-3} \mathrm{~g} of 40 K40 \mathrm{~K} . The half-life of 40 K40 \mathrm{~K} is 1.250×1091.250 \times 10^{9} years. What is the activity of the sample?

A) 265.0 Bq265.0 \mathrm{~Bq}
B) 382.0 Bq382.0 \mathrm{~Bq}
C) 3300 Bq3300 \mathrm{~Bq}
D) 3.000 Bq3.000 \mathrm{~Bq}
E) 1250 Bq1250 \mathrm{~Bq}
Question
What is the mass of 25.0mCi25.0 \mathrm{mCi} of technetium- 99 m99 \mathrm{~m} (Tc99m), which has a half-life of 6.00 h6.00 \mathrm{~h} ?

A) 4.74ng4.74 \mathrm{ng}
B) 3.29ng3.29 \mathrm{ng}
C) 1.05ng1.05 \mathrm{ng}
D) 50.7pg50.7 \mathrm{pg}
E) 25.0mg25.0 \mathrm{mg}
Question
If a 70 kg70 \mathrm{~kg} person received a dose of 3.2mGy3.2 \mathrm{mGy} of gamma rays of RBE=0.80\mathrm{RBE}=0.80 , what is the biologically equivalent dose in rem?

A) 0.18
B) 18
C) 0.0026
D) 0.26
E) 0.012
Question
If a 60 kg60 \mathrm{~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) 0.93 J0.93 \mathrm{~J}
B) 0.26 J0.26 \mathrm{~J}
C) 1.7 J1.7 \mathrm{~J}
D) 1.5 J1.5 \mathrm{~J}
E) 0.015 J0.015 \mathrm{~J}
Question
A beam of gamma rays strikes a lead target with a half-value layer of 0.40 cm0.40 \mathrm{~cm} . What fraction of the photons in the beam will penetrate to a depth of 1.20 cm1.20 \mathrm{~cm} or more?

A) 0.250
B) 0.500
C) 0.333
D) 0.125
E) 0.400
Question
In the fission reaction n+U92235Ba56141+\mathrm{n}+\mathrm{U}_{92}^{235} \rightarrow \mathrm{Ba}_{56}^{141}+ ? +4n+4 \mathrm{n} , what are the Z\mathrm{Z} and A\mathrm{A} for the unknown fission product?

A) 36,91
B) 37,90
C) 36,90
D) 35,94
E) 37,91
Question
The fusion reaction 2H+3H4He+n2 \mathrm{H}+3 \mathrm{H} \rightarrow 4 \mathrm{He}+\mathrm{n} releases 17.6MeV17.6 \mathrm{MeV} of energy. The mass of 2H2 \mathrm{H} is 2.01410u2.01410 \mathrm{u} , the mass of 4He4 \mathrm{He} is 4.00260u4.00260 \mathrm{u} , and the mass of the neutron is 1.00866u1.00866 \mathrm{u} . What is the mass of 3H3 \mathrm{H} ?

A) 3.0349u3.0349 \mathrm{u}
B) 2.9998u2.9998 \mathrm{u}
C) 3.0422u3.0422 \mathrm{u}
D) 3.0161u3.0161 \mathrm{u}
E) 2.9972u2.9972 \mathrm{u}
Question
What is the ratio of radii of the nuclides U92238\mathrm{U}_{92}^{238} and Ca2020\mathrm{Ca}_{20}{ }_{20} ?

A) 1.81
B) 2.44
C) 1.66
D) 5.95
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 cm35 \mathrm{~cm}^{3} . Using the relationship r=(1.2fm)A1/3r=(1.2 \mathrm{fm}) \mathrm{A}^{1 / 3} together with the mass of a proton, 1.67×1027 kg1.67 \times 10^{-27} \mathrm{~kg} , estimate the mass of a teaspoon of nuclear material.

A) 3.8×1011 kg3.8 \times 1011 \mathrm{~kg}
B) 1.15×1012 kg1.15 \times 1012 \mathrm{~kg}
C) 1.53×1012 kg1.53 \times 1012 \mathrm{~kg}
D) 9.6×1011 kg9.6 \times 1011 \mathrm{~kg}
Question
A neutron star has approximately the same density as nuclear material. A typical neutron star has a radius of 8.0 km8.0 \mathrm{~km} . Using the relationship r=(1.2fm)A1/3\mathrm{r}=(1.2 \mathrm{fm}) \mathrm{A} 1 / 3 together with the mass of a neutron, 1.67×1027 kg1.67 \times 10^{-27} \mathrm{~kg} , estimate the mass of a neutron star.

A) 0.65×1030 kg0.65 \times 10^{30}\mathrm{~kg}
B) 0.16×1030 kg0.16 \times 10^{30}\mathrm{~kg}
C) 1.5×1030 kg1.5 \times 10^{30} \mathrm{~kg}
D) 0.49×1030 kg0.49 \times 10^{30}\mathrm{~kg}
Question
What is the radius of the nuclide U92238U_{92}^{238} ?

A) 1.8fm1.8 \mathrm{fm}
B) 290fm290 \mathrm{fm}
C) 5.4fm5.4 \mathrm{fm}
D) 7.4fm7.4 \mathrm{fm}
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) 4.8×1074.8 \times 10^{-7}
B) 4.9×1074.9 \times 10^{-7}
C) 3.3×1073.3 \times 10^{-7}
D) It cannot be known unless the age of the nucleus is known.
Question
How many neutrons are produced in the following induced fission reaction?
n1+U92238S3895r+X54139e+\mathrm{n}_{1}+\mathrm{U}_{92}^{238} \rightarrow \mathrm{S}_{38}^{95} \mathrm{r}+\mathrm{X}_{54}^{139} \mathrm{e}+ neutrons

A) 0
B) 1
C) 3
D) 2
Question
Which of the following nuclear reactions is forbidden?

A) Li37+He23p11+2He24\mathrm{Li}_{3}^{7}+\mathrm{He}_{2}^{3} \rightarrow \mathrm{p}_{1}^{1}+2 \mathrm{He}_{2}^{4}
B) n1+U92235S50132n+M42101o+3n1\mathrm{n}_{1}+\mathrm{U}_{92}^{235} \rightarrow \mathrm{S}_{50}^{132} \mathrm{n}+\mathrm{M}_{42}^{101} \mathrm{o}+3 \mathrm{n}_{1}
C) He24+H13Li37\mathrm{He}_{2}^{4}+\mathrm{H}_{1}^{3} \rightarrow \mathrm{Li}_{3}^{7}
D) Li37+H112He24\mathrm{Li}_{3}^{7}+\mathrm{H}_{1}^{1} \rightarrow 2 \mathrm{He}_{2}^{4}
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Deck 29: Nuclear Physics
1
What is the symbol for the nuclide with 38 protons and 50 neutrons?

A) 8850\begin{array}{r}88 \\ 50\end{array}
B) 8858\begin{array}{r}88 \\ \quad 58\end{array}
C) Sn5038\mathrm{Sn}_{50}^{38}
D) 5038\begin{array}{r}50 \\ 38\end{array}
8858\begin{array}{r}88 \\ \quad 58\end{array}
2
What is the symbol for the nuclide with 46 protons and 92 neutrons?

A) U132\mathrm{U}^{132}
B) 13846\quad \begin{gathered}138 \\ 46\end{gathered}
C) U9246\mathrm{U}_{92}^{46}
D) Pd9246\mathrm{Pd} \frac{92}{46}
13846\quad \begin{gathered}138 \\ 46\end{gathered}
3
One mole of Al1327\mathrm{Al}_{13}^{27} has a mass of approximately

A) 14 g14 \mathrm{~g}
B) 27 g27 \mathrm{~g}
C) 20 g20 \mathrm{~g}
D) 40 g40 \mathrm{~g}
E) 13 g13 \mathrm{~g}
27 g27 \mathrm{~g}
4
How many atoms are in one gram of Al1327\mathrm{Al}_{13}^{27} ?

A) 6.02×10226.02 \times 10^{22}
B) 1.51×10231.51 \times 10^{23}
C) 2.23×10222.23 \times 10^{22}
D) 2.23×10252.23 \times 10^{25}
E) 1.63×10251.63 \times 10^{25}
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5
What nuclide has 14 protons and 16 neutrons?

A) 14O14 \mathrm{O}
B) 30 S30 \mathrm{~S}
C) 16 S16 \mathrm{~S}
D) 30Si30 \mathrm{Si}
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6
One mole of 40Ar(Z=18)40 \mathrm{Ar}(\mathrm{Z}=18) has about what mass?

A) 22 kg22 \mathrm{~kg}
B) 18 g18 \mathrm{~g}
C) 22 g22 \mathrm{~g}
D) 40 g40 \mathrm{~g}
E) 40 kg40 \mathrm{~kg}
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7
One pg (picogram) of 40 K40 \mathrm{~K} has how many nuclei?

A) 1.5×10101.5 \times 1010
B) 6.0×10116.0 \times 1011
C) 3.0×10113.0 \times 1011
D) 6.0×10176.0 \times 1017
E) 1.5×10221.5 \times 1022
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8
What is the radius of a nuclide with mass number 190 ?

A) 6.9fm6.9 \mathrm{fm}
B) 0.19fm0.19 \mathrm{fm}
C) 190fm190 \mathrm{fm}
D) 5.7fm5.7 \mathrm{fm}
E) 4.8fm4.8 \mathrm{fm}
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9
What is the volume of the U92238U_{92}^{238} nucleus?

A) 1.7×1042 m31.7 \times 10-42 \mathrm{~m}^{3}
B) 6.7×1043 m36.7 \times 10-43 \mathrm{~m}^{3}
C) 5.2×1042 m35.2 \times 10^{-42} \mathrm{~m}^{3}
D) 1.2×1012 m31.2 \times 10^{-12} \mathrm{~m}^{3}
E) 1.6×1042 m31.6 \times 10^{-42} \mathrm{~m}^{3}
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10
What is the density of the 238U238 \mathrm{U} nucleus?

A) 3.2×1014 kg/m33.2 \times 10^{14} \mathrm{~kg} / \mathrm{m}^{3}
B) 1.0×103 kg/m31.0 \times 10^{3} \mathrm{~kg} / \mathrm{m}^{3}
C) 2.38×105 kg/m32.38 \times 10^{5} \mathrm{~kg} / \mathrm{m}^{3}
D) 9.6×1014 kg/m39.6 \times 1014 \mathrm{~kg} / \mathrm{m}^{3}
E) 2.3×1017 kg/m32.3 \times 1017 \mathrm{~kg} / \mathrm{m}^{3}
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11
In the reaction n+12Cα+n+12 C \rightarrow \alpha+ ?, what is the unknown product nucleus?

A) 9 B9 \mathrm{~B}
B) 9C9 \mathrm{C}
C) 13C13 \mathrm{C}
D) 9Be9 \mathrm{Be}
E) 10 B10 \mathrm{~B}
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12
In the reaction 4He+9Ben+12C4 \mathrm{He}+{ }^{9} \mathrm{Be} \rightarrow \mathrm{n}+{ }^{12} \mathrm{C} , how much energy is released or absorbed? The masses of the neutral atoms are as follows: the mas of 4He4 \mathrm{He} is 4.0026033u4.0026033 \mathrm{u} , the mass of 9Be{ }^{9} \mathrm{Be} is 9.0121831u9.0121831 \mathrm{u} , the mass of n\mathrm{n} is 1.0086649u1.0086649 \mathrm{u} , and the mass of 12C12 \mathrm{C} is 12.0000000u12.0000000 \mathrm{u} .

A) 5.70MeV5.70 \mathrm{MeV} released
B) 4.21MeV4.21 \mathrm{MeV} released
C) 4.21MeV4.21 \mathrm{MeV} absorbed
D) 5.70MeV5.70 \mathrm{MeV} absorbed
E) 6.34MeV6.34 \mathrm{MeV} released
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13
What is the binding energy per nucleon for 12C{ }^{12} \mathrm{C} ?

A) 7.68MeV7.68 \mathrm{MeV}
B) 46.1MeV46.1 \mathrm{MeV}
C) 104MeV104 \mathrm{MeV}
D) 137MeV137 \mathrm{MeV}
E) 92.2MeV92.2 \mathrm{MeV}
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14
What are the approximate binding energies per nucleon (in MeV\mathrm{MeV} ) around A=60\mathrm{A}=60 and A=240\mathrm{A}=240 , respectively?

A) 9.4,7.09.4,7.0
B) 7.0,9.47.0,9.4
C) 7.0,8.07.0,8.0
D) 7.6,8.77.6,8.7
E) 8.7,7.68.7,7.6
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15
What is the binding energy of an alpha particle?

A) 28.3MeV28.3 \mathrm{MeV}
B) 50.0MeV50.0 \mathrm{MeV}
C) 2.20MeV2.20 \mathrm{MeV}
D) 21.2MeV21.2 \mathrm{MeV}
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16
What is the mass defect of an alpha particle?

A) 0.03147u0.03147 \mathrm{u}
B) 0.30377u0.30377 \mathrm{u}
C) 0.02928u0.02928 \mathrm{u}
D) 0.03038u0.03038 \mathrm{u}
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17
When 241 Am decays by emitting an alpha particle of kinetic energy 5.5MeV5.5 \mathrm{MeV} , what is the recoil energy of the daughter nucleus?

A) 0.091MeV0.091 \mathrm{MeV}
B) 0.093MeV0.093 \mathrm{MeV}
C) 1.3MeV1.3 \mathrm{MeV}
D) 5.5MeV5.5 \mathrm{MeV}
E) 0.88MeV0.88 \mathrm{MeV}
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18
The isotope A281A_{28} 1 decays by beta-minus decay. What is the daughter nucleus?

A) Si28\mathrm{Si}_{28}
B) Si27\mathrm{Si}_{27}
C) Mg28\mathrm{Mg}_{28}
D) A271\mathrm{A}_{27} 1
E) Na24\mathrm{Na}_{24}
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19
The isotope A261\mathrm{A}_{26} 1 decays by beta-plus decay. What is the daughter nucleus?

A) 26Al26 \mathrm{Al}
B) 26Mg26 \mathrm{Mg}
C) 27Al27 \mathrm{Al}
D) 25Al25 \mathrm{Al}
E) 26Si26 \mathrm{Si}
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20
Barium-137 emits a gamma ray in the decay from an excited state (137Ba)\left({ }^{137} \mathrm{Ba}^{*}\right) . What is the resulting daughter nuclide?

A) 136Cs136 \mathrm{Cs}
B) 137La137 \mathrm{La}
C) 137Ba137 \mathrm{Ba}
D) 137Cs137 \mathrm{Cs}
E) 136Ba136 \mathrm{Ba}
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21
The half-life of 30P is 2.50 minutes. If a sample of 30P has 1.60×10101.60 \times 1010 nuclei present initially, how many remain after 10.0 minutes?

A) 0.050×10100.050 \times 1010
B) 0.400×10100.400 \times 1010
C) 0.200×10100.200 \times 1010
D) 0.100×10100.100 \times 1010
E) 0.800×10100.800 \times 1010
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22
The half-life of 30P30 \mathrm{P} is 2.50 minutes. If a sample of 30P30 \mathrm{P} has 1.60×10101.60 \times 10^{10} nuclei present, what is its activity?

A) 1.6×109 Bq1.6 \times 10^{9} \mathrm{~Bq}
B) 6.4×109 Bq6.4 \times 10^{9} \mathrm{~Bq}
C) 1.6×1010 Bq1.6 \times 10^{10} \mathrm{~Bq}
D) 7.4×107 Bq7.4 \times 10^{7} \mathrm{~Bq}
E) 4.6×107 Bq4.6 \times 10^{7} \mathrm{~Bq}
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23
A sample contains 1.000×103 g1.000 \times 10^{-3} \mathrm{~g} of 40 K40 \mathrm{~K} . The half-life of 40 K40 \mathrm{~K} is 1.250×1091.250 \times 10^{9} years. What is the activity of the sample?

A) 265.0 Bq265.0 \mathrm{~Bq}
B) 382.0 Bq382.0 \mathrm{~Bq}
C) 3300 Bq3300 \mathrm{~Bq}
D) 3.000 Bq3.000 \mathrm{~Bq}
E) 1250 Bq1250 \mathrm{~Bq}
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24
What is the mass of 25.0mCi25.0 \mathrm{mCi} of technetium- 99 m99 \mathrm{~m} (Tc99m), which has a half-life of 6.00 h6.00 \mathrm{~h} ?

A) 4.74ng4.74 \mathrm{ng}
B) 3.29ng3.29 \mathrm{ng}
C) 1.05ng1.05 \mathrm{ng}
D) 50.7pg50.7 \mathrm{pg}
E) 25.0mg25.0 \mathrm{mg}
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25
If a 70 kg70 \mathrm{~kg} person received a dose of 3.2mGy3.2 \mathrm{mGy} of gamma rays of RBE=0.80\mathrm{RBE}=0.80 , what is the biologically equivalent dose in rem?

A) 0.18
B) 18
C) 0.0026
D) 0.26
E) 0.012
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26
If a 60 kg60 \mathrm{~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) 0.93 J0.93 \mathrm{~J}
B) 0.26 J0.26 \mathrm{~J}
C) 1.7 J1.7 \mathrm{~J}
D) 1.5 J1.5 \mathrm{~J}
E) 0.015 J0.015 \mathrm{~J}
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27
A beam of gamma rays strikes a lead target with a half-value layer of 0.40 cm0.40 \mathrm{~cm} . What fraction of the photons in the beam will penetrate to a depth of 1.20 cm1.20 \mathrm{~cm} or more?

A) 0.250
B) 0.500
C) 0.333
D) 0.125
E) 0.400
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28
In the fission reaction n+U92235Ba56141+\mathrm{n}+\mathrm{U}_{92}^{235} \rightarrow \mathrm{Ba}_{56}^{141}+ ? +4n+4 \mathrm{n} , what are the Z\mathrm{Z} and A\mathrm{A} for the unknown fission product?

A) 36,91
B) 37,90
C) 36,90
D) 35,94
E) 37,91
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29
The fusion reaction 2H+3H4He+n2 \mathrm{H}+3 \mathrm{H} \rightarrow 4 \mathrm{He}+\mathrm{n} releases 17.6MeV17.6 \mathrm{MeV} of energy. The mass of 2H2 \mathrm{H} is 2.01410u2.01410 \mathrm{u} , the mass of 4He4 \mathrm{He} is 4.00260u4.00260 \mathrm{u} , and the mass of the neutron is 1.00866u1.00866 \mathrm{u} . What is the mass of 3H3 \mathrm{H} ?

A) 3.0349u3.0349 \mathrm{u}
B) 2.9998u2.9998 \mathrm{u}
C) 3.0422u3.0422 \mathrm{u}
D) 3.0161u3.0161 \mathrm{u}
E) 2.9972u2.9972 \mathrm{u}
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30
What is the ratio of radii of the nuclides U92238\mathrm{U}_{92}^{238} and Ca2020\mathrm{Ca}_{20}{ }_{20} ?

A) 1.81
B) 2.44
C) 1.66
D) 5.95
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31
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 cm35 \mathrm{~cm}^{3} . Using the relationship r=(1.2fm)A1/3r=(1.2 \mathrm{fm}) \mathrm{A}^{1 / 3} together with the mass of a proton, 1.67×1027 kg1.67 \times 10^{-27} \mathrm{~kg} , estimate the mass of a teaspoon of nuclear material.

A) 3.8×1011 kg3.8 \times 1011 \mathrm{~kg}
B) 1.15×1012 kg1.15 \times 1012 \mathrm{~kg}
C) 1.53×1012 kg1.53 \times 1012 \mathrm{~kg}
D) 9.6×1011 kg9.6 \times 1011 \mathrm{~kg}
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32
A neutron star has approximately the same density as nuclear material. A typical neutron star has a radius of 8.0 km8.0 \mathrm{~km} . Using the relationship r=(1.2fm)A1/3\mathrm{r}=(1.2 \mathrm{fm}) \mathrm{A} 1 / 3 together with the mass of a neutron, 1.67×1027 kg1.67 \times 10^{-27} \mathrm{~kg} , estimate the mass of a neutron star.

A) 0.65×1030 kg0.65 \times 10^{30}\mathrm{~kg}
B) 0.16×1030 kg0.16 \times 10^{30}\mathrm{~kg}
C) 1.5×1030 kg1.5 \times 10^{30} \mathrm{~kg}
D) 0.49×1030 kg0.49 \times 10^{30}\mathrm{~kg}
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33
What is the radius of the nuclide U92238U_{92}^{238} ?

A) 1.8fm1.8 \mathrm{fm}
B) 290fm290 \mathrm{fm}
C) 5.4fm5.4 \mathrm{fm}
D) 7.4fm7.4 \mathrm{fm}
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34
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) 4.8×1074.8 \times 10^{-7}
B) 4.9×1074.9 \times 10^{-7}
C) 3.3×1073.3 \times 10^{-7}
D) It cannot be known unless the age of the nucleus is known.
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35
How many neutrons are produced in the following induced fission reaction?
n1+U92238S3895r+X54139e+\mathrm{n}_{1}+\mathrm{U}_{92}^{238} \rightarrow \mathrm{S}_{38}^{95} \mathrm{r}+\mathrm{X}_{54}^{139} \mathrm{e}+ neutrons

A) 0
B) 1
C) 3
D) 2
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36
Which of the following nuclear reactions is forbidden?

A) Li37+He23p11+2He24\mathrm{Li}_{3}^{7}+\mathrm{He}_{2}^{3} \rightarrow \mathrm{p}_{1}^{1}+2 \mathrm{He}_{2}^{4}
B) n1+U92235S50132n+M42101o+3n1\mathrm{n}_{1}+\mathrm{U}_{92}^{235} \rightarrow \mathrm{S}_{50}^{132} \mathrm{n}+\mathrm{M}_{42}^{101} \mathrm{o}+3 \mathrm{n}_{1}
C) He24+H13Li37\mathrm{He}_{2}^{4}+\mathrm{H}_{1}^{3} \rightarrow \mathrm{Li}_{3}^{7}
D) Li37+H112He24\mathrm{Li}_{3}^{7}+\mathrm{H}_{1}^{1} \rightarrow 2 \mathrm{He}_{2}^{4}
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