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Deck 45: Applications of Nuclear Physics

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Question
A beam of 1-MeV gamma rays incident on a piece of 0.50-cm thick lead is reduced by 50% of its initial value.How thick must the lead be to reduce the beam to one percent of its initial value?

A)1.1 cm
B)2.2 cm
C)3.3 cm
D)4.4 cm
E)8.4 cm
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Question
One rad is

A)the amount of radiation that deposits 10−2 J of energy into 1 kg of absorbing material.
B)the amount of ionizing radiation that will produce 1/3 × 10−9 C of electric charge in 1 cm3 of air under standard conditions.
C)the amount of radiation needed for ionization of an atom.
D)the amount of radiation needed for dissociation of a molecule.
E)the amount of radiation that deposits one erg of energy in 1g of material.
Question
Find the number of nuclei per unit volume (n = nuclei/cm3)for lead.
Atomic weight = 202.7
Density = 11.5 g/cm3
Avogadro's number = 6.02 × 1023

A)2.51 × 1022
B)3.42 × 1022
C)2.93 × 1022
D)2.94 × 1023
E)2.05 × 1021
Question
A neutron is known to undergo beta decay (n → p + e− + <strong>A neutron is known to undergo beta decay (n → p + e− + ))A reasonable mean lifetime for free neutrons is</strong> A)10 years B)10 hours C)10 days D)10 minutes E)10−<sup>23</sup> s <div style=padding-top: 35px>
))A reasonable mean lifetime for free neutrons is

A)10 years
B)10 hours
C)10 days
D)10 minutes
E)10−23 s
Question
What energy is needed (in MeV)so two deuterium atoms moving together will reach the necessary 10−14 m for fusion?

A)0.511
B)0.14
C)2.5
D)4.3
E)1.0
Question
One roentgen is defined as

A)the amount of ionizing radiation that will produce 1/3 × 10−9 C of electric charge in 1 cm3 of air under standard conditions.
B)the amount of radiation that deposits 10−2 J of energy into 1 kg of absorbing material.
C)the amount of radiation needed for ionization of an atom.
D)the amount of radiation needed for dissociation of a molecule.
E)the amount of radiation that deposits 1 erg of energy in 1 g of air.
Question
A neutron is characterized by the term "thermal neutron" when

A)its energy is of the order kT,where T is on the order of 0°C.
B)its energy is of the order kT,where T is on the order of 0 K.
C)its energy is of the order kT,where T is on the order of 273°C.
D)its energy is of the order kT,where T is on the order of 100°C.
E)its energy is of the order kT,where T is on the order of 0°R.
Question
A self-sustained chain reaction occurs when the reproduction constant,K,is equal to

A)3.0
B)2.0
C)2.5
D)1.0
E)0.5
Question
How fast must two deuterium atoms be moving so they can overcome the Coulomb force of repulsion,and attain the necessary 10−14 m for fusion? (m( <strong>How fast must two deuterium atoms be moving so they can overcome the Coulomb force of repulsion,and attain the necessary 10−<sup>14</sup> m for fusion? (m( )= 2.014 1 u)</strong> A)3.9 × 10<sup>6</sup> m/s B)1.3 × 10<sup>6</sup> m/s C)2.6 × 10<sup>6</sup> m/s D)5.2 × 10<sup>6</sup> m/s E)3.7 × 10<sup>6</sup> m/s <div style=padding-top: 35px>
)= 2.014 1 u)

A)3.9 × 106 m/s
B)1.3 × 106 m/s
C)2.6 × 106 m/s
D)5.2 × 106 m/s
E)3.7 × 106 m/s
Question
Find the unknown atomic number and mass number respectively,for the following reaction <strong>Find the unknown atomic number and mass number respectively,for the following reaction </strong> A)141,53 B)140,54 C)53,41 D)54,140 E)54,141 <div style=padding-top: 35px>

A)141,53
B)140,54
C)53,41
D)54,140
E)54,141
Question
The nuclear probability of interacting with neutrons depends most strongly on the neutron's

A)mass
B)area
C)volume
D)speed
E)charge
Question
A principal mechanism for energy loss during nuclear fusion is bremsstrahlung.This loss is associated with

A)x-rays emitted due to electron-ion collisions.
B)radiation losses due to T4 losses.
C)conduction losses associated with ΔT.
D)convection losses associated with ΔT.
E)neutron collisions with atoms of moderator.
Question
Approximately how fast is an ion of helium moving if it is in a plasma with a temperature of 108 K? m(He)= 4.002 603 u and u = 1.66 × 10−27 kg.

A)106 m/s
B)104 m/s
C)102 m/s
D)10 m/s
E)1 m/s
Question
Approximately how much uranium (in kg)must undergo fission per day to provide 1 000 MW of power? (Assume an efficiency of 30%).The nuclear reaction is <strong>Approximately how much uranium (in kg)must undergo fission per day to provide 1 000 MW of power? (Assume an efficiency of 30%).The nuclear reaction is ) m(n.= 1.008 665 u m(U.= 235.043 915 u M(Ba)= 140.913 9 u M(Kr)= 91.897 3 u U = 1.66 × 10−<sup>27</sup> kg</strong> A)1.0 B)3.5 C)2.3 D)4.6 E)0.1 <div style=padding-top: 35px>
)
m(n.= 1.008 665 u
m(U.= 235.043 915 u
M(Ba)= 140.913 9 u
M(Kr)= 91.897 3 u
U = 1.66 × 10−27 kg

A)1.0
B)3.5
C)2.3
D)4.6
E)0.1
Question
Calculate the half-value thickness (in mm)of lead if it reduces the intensity of a beam of x-rays whose wavelength is 10 pm by a factor of two.(Assume the linear absorption coefficient of lead is 43 cm−1 for x-rays of wavelength 10 × 10−12 m. )

A)0.24
B)0.20
C)0.12
D)0.16
E)0.18
Question
What is the average kinetic energy (in keV)of an ion that has a temperature of <strong>What is the average kinetic energy (in keV)of an ion that has a temperature of 10<sup>8</sup> K?</strong> A)8.2 B)13 C)4.3 D)16 E)21 <div style=padding-top: 35px>
108 K?

A)8.2
B)13
C)4.3
D)16
E)21
Question
A rem (roentgen equivalent in man)is defined as (the product of)

A)the dose in RBE.
B)the dose in roentgen and the RBE factor.
C)the dose in rad times the dose in roentgen.
D)the dose in rad and the RBE factor.
E)the dose in rad and energy of radiation.
Question
How much energy (in MeV)is released when a <strong>How much energy (in MeV)is released when a Fissions to And In the reaction m(n.= 1.008665 u m(U.= 235.043915 u M(Ba)= 140.9139 u M(Kr)= 91.8973 u U = 1.66 × 10−<sup>27</sup> kg</strong> A)100 B)50 C)200 D)150 E)250 <div style=padding-top: 35px>
Fissions to <strong>How much energy (in MeV)is released when a Fissions to And In the reaction m(n.= 1.008665 u m(U.= 235.043915 u M(Ba)= 140.9139 u M(Kr)= 91.8973 u U = 1.66 × 10−<sup>27</sup> kg</strong> A)100 B)50 C)200 D)150 E)250 <div style=padding-top: 35px>
And <strong>How much energy (in MeV)is released when a Fissions to And In the reaction m(n.= 1.008665 u m(U.= 235.043915 u M(Ba)= 140.9139 u M(Kr)= 91.8973 u U = 1.66 × 10−<sup>27</sup> kg</strong> A)100 B)50 C)200 D)150 E)250 <div style=padding-top: 35px>
In the reaction <strong>How much energy (in MeV)is released when a Fissions to And In the reaction m(n.= 1.008665 u m(U.= 235.043915 u M(Ba)= 140.9139 u M(Kr)= 91.8973 u U = 1.66 × 10−<sup>27</sup> kg</strong> A)100 B)50 C)200 D)150 E)250 <div style=padding-top: 35px>
m(n.= 1.008665 u
m(U.= 235.043915 u
M(Ba)= 140.9139 u
M(Kr)= 91.8973 u
U = 1.66 × 10−27 kg

A)100
B)50
C)200
D)150
E)250
Question
A thermal neutron has an energy (in eV)on the order of

A)40
B)0.4
C)4
D)0.04
E)400
Question
Which of the following is not a radiation detector?

A)cloud chamber
B)Geiger counter
C)scintillation counter
D)neutron activation
E)spark chamber
Question
A beam of high-energy α-particles is incident upon a person and deposits 0.35 J of energy in 0.80 kg of tissue.What dose in rads and what equivalent dose in rems does the individual receive? [RBE α = 20]
Question
When a beam of nuclear radiation of initial intensity I0 passes through a thickness x of material,the intensity of the beam exiting the material is I =

A)I0e−μx.
B)I0eμx.
C)I0(e−μx − 1).
D)I0(eμx − 1).
E)I0(1 − e−μx).
Question
Radiant energy reaching the Earth from the sun is not sufficient to keep the Earth's surface temperature comfortable for life.Of the following,the most likely source of the additional thermal energy is from

A)fusion of hydrogen nuclei in the Earth's core.
B)fusion of high Z nuclei in the Earth's core.
C)fission of radioactive nuclei inside the Earth.
D)fission of radioactive nuclei in cosmic rays.
E)deflection of radioactive nuclei in cosmic rays.
Question
When a nucleus at rest spontaneously splits into fragments of mass m1 and m2,the ratio of the velocity of m1 to the velocity of m2 is

A) <strong>When a nucleus at rest spontaneously splits into fragments of mass m<sub>1</sub> and m<sub>2</sub>,the ratio of the velocity of m<sub>1</sub> to the velocity of m<sub>2</sub> is</strong> A) . B) . C)−1. D) . E) . <div style=padding-top: 35px> .
B) <strong>When a nucleus at rest spontaneously splits into fragments of mass m<sub>1</sub> and m<sub>2</sub>,the ratio of the velocity of m<sub>1</sub> to the velocity of m<sub>2</sub> is</strong> A) . B) . C)−1. D) . E) . <div style=padding-top: 35px> .
C)−1.
D) <strong>When a nucleus at rest spontaneously splits into fragments of mass m<sub>1</sub> and m<sub>2</sub>,the ratio of the velocity of m<sub>1</sub> to the velocity of m<sub>2</sub> is</strong> A) . B) . C)−1. D) . E) . <div style=padding-top: 35px> .
E) <strong>When a nucleus at rest spontaneously splits into fragments of mass m<sub>1</sub> and m<sub>2</sub>,the ratio of the velocity of m<sub>1</sub> to the velocity of m<sub>2</sub> is</strong> A) . B) . C)−1. D) . E) . <div style=padding-top: 35px> .
Question
The reaction <strong>The reaction Is known as a ____ reaction.</strong> A)beta capture B)beta emission C)neutron capture D)neutron emission E)photon emission <div style=padding-top: 35px>
Is known as a ____ reaction.

A)beta capture
B)beta emission
C)neutron capture
D)neutron emission
E)photon emission
Question
The nuclear reaction(s)that is(are)most likely to be employed in fusion reactors on Earth is(are)

A) <strong>The nuclear reaction(s)that is(are)most likely to be employed in fusion reactors on Earth is(are)</strong> A) . B) . C) . D)all of the above. E)only (a)and (b)above. <div style=padding-top: 35px> .
B) <strong>The nuclear reaction(s)that is(are)most likely to be employed in fusion reactors on Earth is(are)</strong> A) . B) . C) . D)all of the above. E)only (a)and (b)above. <div style=padding-top: 35px> .
C) <strong>The nuclear reaction(s)that is(are)most likely to be employed in fusion reactors on Earth is(are)</strong> A) . B) . C) . D)all of the above. E)only (a)and (b)above. <div style=padding-top: 35px> .
D)all of the above.
E)only (a)and (b)above.
Question
When a nucleus at rest spontaneously splits into fragments of mass m1 and m2,the ratio of the momentum of m1 to the momentum of m2 is

A) <strong>When a nucleus at rest spontaneously splits into fragments of mass m<sub>1</sub> and m<sub>2</sub>,the ratio of the momentum of m<sub>1</sub> to the momentum of m<sub>2</sub> is</strong> A) . B) . C)−1. D) . E) . <div style=padding-top: 35px> .
B) <strong>When a nucleus at rest spontaneously splits into fragments of mass m<sub>1</sub> and m<sub>2</sub>,the ratio of the momentum of m<sub>1</sub> to the momentum of m<sub>2</sub> is</strong> A) . B) . C)−1. D) . E) . <div style=padding-top: 35px> .
C)−1.
D) <strong>When a nucleus at rest spontaneously splits into fragments of mass m<sub>1</sub> and m<sub>2</sub>,the ratio of the momentum of m<sub>1</sub> to the momentum of m<sub>2</sub> is</strong> A) . B) . C)−1. D) . E) . <div style=padding-top: 35px> .
E) <strong>When a nucleus at rest spontaneously splits into fragments of mass m<sub>1</sub> and m<sub>2</sub>,the ratio of the momentum of m<sub>1</sub> to the momentum of m<sub>2</sub> is</strong> A) . B) . C)−1. D) . E) . <div style=padding-top: 35px> .
Question
A radioactive sample with decay rate R and decay energy Q has power output

A) <strong>A radioactive sample with decay rate R and decay energy Q has power output</strong> A) . B)RQ. C)Q<sup>2</sup>R. D)equal to any of the above. E)equal to (a)or (c)above. <div style=padding-top: 35px> .
B)RQ.
C)Q2R.
D)equal to any of the above.
E)equal to (a)or (c)above.
Question
The theory of nuclear astrophysics is that all the heavy elements like uranium are formed in the interior of massive stars.These stars eventually explode,releasing these elements into space.If we assume that at the time of the explosion there were equal amount of U-235 and U-238,how long ago did the star(s)explode that released the elements that formed our Earth? The present U-235/U-238 ratio is 0.0070.[The half-lives of U-235 and U-238 are 0.7 × 109 yr and 4.47 × 109 yr.]
Question
When a fast neutron collides with a hydrogen or deuterium nucleus,the most likely result is that

A)the neutron has an appreciable gain in kinetic energy,the gain being greatest for head-on collisions.
B)the neutron has an appreciable gain in kinetic energy,the gain being greatest for oblique collisions.
C)the neutron has an appreciable loss in kinetic energy,the loss being greatest for head-on collisions.
D)the neutron has an appreciable loss in kinetic energy,the loss being greatest for oblique collisions.
E)the neutron is absorbed by the hydrogen or deuterium nucleus.
Question
How much kinetic energy must a deuterium ion (charge 1.6 × 10−19 C)have to approach to within 10−14 m of another deuterium ion? (1 MeV = 1.6 × 10−13 J)
Question
Radioactive technetium,a gamma emitter,is taken up by the heart muscle in a medical test.The detector for the radiation emitted from the heart could be a

A)Tokamak.
B)quarter-wavelength antenna.
C)Geiger counter.
D)photoelectric tube.
E)diffraction grating.
Question
In order to control a nuclear reactor,control rods can be pulled out of or pushed into the reactor core by remote control.These rods control the reactor by

A)slowing down the fast neutrons so the neutrons can be absorbed by 238U.
B)speeding up slow neutrons so the neutrons can be absorbed by 238U.
C)slowing down fast neutrons so they cannot initiate further fusion reactions in 235U.
D)speeding up fast neutrons so they cannot initiate further fusion reactions in 235U.
E)capturing thermal neutrons so they cannot initiate further fission reactions in 235U.
Question
In neutron capture by an atomic nucleus,the mass number of the nucleus changes by

A)−2.
B)−1.
C)0.
D)+1.
E)+2.
Question
In neutron capture by an atomic nucleus,the atomic number changes by

A)−2.
B)−1.
C)0.
D)+1.
E)+2.
Question
Background radiation from cosmic rays and radioactive nuclei in our surroundings is about 0.13 rem/year.Suppose we assume this all comes from cosmic rays which have an RBE factor of 1.0.The RBE factor for the most dangerous types of radiation is 20.How many rads of the most dangerous radiation could a 100-year-old person have been exposed to in her lifetime without having gone over the recommended limit of 0.5 rem/year?

A)0.37
B)0.50
C)1.85
D)13
E)37
Question
In the Lawson number what do the n and <strong>In the Lawson number what do the n and Stand for?</strong> A)ion density,critical ignition temperature. B)ion density,confinement time. C)neutrino density,confinement time D)ion density,critical ignition temperature E)neutrino density,reaction mean life. <div style=padding-top: 35px>
Stand for?

A)ion density,critical ignition temperature.
B)ion density,confinement time.
C)neutrino density,confinement time
D)ion density,critical ignition temperature
E)neutrino density,reaction mean life.
Question
A nuclear reactor is said to be critical when the average number of neutrons from each fission event that cause(s)another fission event is

A)<1.
B)1.
C)>1.
D)any of the above.
E)only (b)or (c)above.
Question
How many grams of deuterium (atomic mass = 2.0141 u)must be fused to helium (atomic mass 4.0026 u)in one second to produce 3000 MJ of energy? [1 u = 1.66 × 10−27 kg]
Question
How many grams of U-235 must be fissioned every day to produce 1000 MW of electricity in a nuclear power plant that is 1/3 efficient? [Assume 208 MeV/fission and 1 MeV = 1.6 × 10−13 J]
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Deck 45: Applications of Nuclear Physics
1
A beam of 1-MeV gamma rays incident on a piece of 0.50-cm thick lead is reduced by 50% of its initial value.How thick must the lead be to reduce the beam to one percent of its initial value?

A)1.1 cm
B)2.2 cm
C)3.3 cm
D)4.4 cm
E)8.4 cm
3.3 cm
2
One rad is

A)the amount of radiation that deposits 10−2 J of energy into 1 kg of absorbing material.
B)the amount of ionizing radiation that will produce 1/3 × 10−9 C of electric charge in 1 cm3 of air under standard conditions.
C)the amount of radiation needed for ionization of an atom.
D)the amount of radiation needed for dissociation of a molecule.
E)the amount of radiation that deposits one erg of energy in 1g of material.
the amount of radiation that deposits 10−2 J of energy into 1 kg of absorbing material.
3
Find the number of nuclei per unit volume (n = nuclei/cm3)for lead.
Atomic weight = 202.7
Density = 11.5 g/cm3
Avogadro's number = 6.02 × 1023

A)2.51 × 1022
B)3.42 × 1022
C)2.93 × 1022
D)2.94 × 1023
E)2.05 × 1021
3.42 × 1022
4
A neutron is known to undergo beta decay (n → p + e− + <strong>A neutron is known to undergo beta decay (n → p + e− + ))A reasonable mean lifetime for free neutrons is</strong> A)10 years B)10 hours C)10 days D)10 minutes E)10−<sup>23</sup> s
))A reasonable mean lifetime for free neutrons is

A)10 years
B)10 hours
C)10 days
D)10 minutes
E)10−23 s
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5
What energy is needed (in MeV)so two deuterium atoms moving together will reach the necessary 10−14 m for fusion?

A)0.511
B)0.14
C)2.5
D)4.3
E)1.0
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6
One roentgen is defined as

A)the amount of ionizing radiation that will produce 1/3 × 10−9 C of electric charge in 1 cm3 of air under standard conditions.
B)the amount of radiation that deposits 10−2 J of energy into 1 kg of absorbing material.
C)the amount of radiation needed for ionization of an atom.
D)the amount of radiation needed for dissociation of a molecule.
E)the amount of radiation that deposits 1 erg of energy in 1 g of air.
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7
A neutron is characterized by the term "thermal neutron" when

A)its energy is of the order kT,where T is on the order of 0°C.
B)its energy is of the order kT,where T is on the order of 0 K.
C)its energy is of the order kT,where T is on the order of 273°C.
D)its energy is of the order kT,where T is on the order of 100°C.
E)its energy is of the order kT,where T is on the order of 0°R.
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8
A self-sustained chain reaction occurs when the reproduction constant,K,is equal to

A)3.0
B)2.0
C)2.5
D)1.0
E)0.5
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9
How fast must two deuterium atoms be moving so they can overcome the Coulomb force of repulsion,and attain the necessary 10−14 m for fusion? (m( <strong>How fast must two deuterium atoms be moving so they can overcome the Coulomb force of repulsion,and attain the necessary 10−<sup>14</sup> m for fusion? (m( )= 2.014 1 u)</strong> A)3.9 × 10<sup>6</sup> m/s B)1.3 × 10<sup>6</sup> m/s C)2.6 × 10<sup>6</sup> m/s D)5.2 × 10<sup>6</sup> m/s E)3.7 × 10<sup>6</sup> m/s
)= 2.014 1 u)

A)3.9 × 106 m/s
B)1.3 × 106 m/s
C)2.6 × 106 m/s
D)5.2 × 106 m/s
E)3.7 × 106 m/s
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10
Find the unknown atomic number and mass number respectively,for the following reaction <strong>Find the unknown atomic number and mass number respectively,for the following reaction </strong> A)141,53 B)140,54 C)53,41 D)54,140 E)54,141

A)141,53
B)140,54
C)53,41
D)54,140
E)54,141
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11
The nuclear probability of interacting with neutrons depends most strongly on the neutron's

A)mass
B)area
C)volume
D)speed
E)charge
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12
A principal mechanism for energy loss during nuclear fusion is bremsstrahlung.This loss is associated with

A)x-rays emitted due to electron-ion collisions.
B)radiation losses due to T4 losses.
C)conduction losses associated with ΔT.
D)convection losses associated with ΔT.
E)neutron collisions with atoms of moderator.
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13
Approximately how fast is an ion of helium moving if it is in a plasma with a temperature of 108 K? m(He)= 4.002 603 u and u = 1.66 × 10−27 kg.

A)106 m/s
B)104 m/s
C)102 m/s
D)10 m/s
E)1 m/s
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14
Approximately how much uranium (in kg)must undergo fission per day to provide 1 000 MW of power? (Assume an efficiency of 30%).The nuclear reaction is <strong>Approximately how much uranium (in kg)must undergo fission per day to provide 1 000 MW of power? (Assume an efficiency of 30%).The nuclear reaction is ) m(n.= 1.008 665 u m(U.= 235.043 915 u M(Ba)= 140.913 9 u M(Kr)= 91.897 3 u U = 1.66 × 10−<sup>27</sup> kg</strong> A)1.0 B)3.5 C)2.3 D)4.6 E)0.1
)
m(n.= 1.008 665 u
m(U.= 235.043 915 u
M(Ba)= 140.913 9 u
M(Kr)= 91.897 3 u
U = 1.66 × 10−27 kg

A)1.0
B)3.5
C)2.3
D)4.6
E)0.1
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15
Calculate the half-value thickness (in mm)of lead if it reduces the intensity of a beam of x-rays whose wavelength is 10 pm by a factor of two.(Assume the linear absorption coefficient of lead is 43 cm−1 for x-rays of wavelength 10 × 10−12 m. )

A)0.24
B)0.20
C)0.12
D)0.16
E)0.18
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16
What is the average kinetic energy (in keV)of an ion that has a temperature of <strong>What is the average kinetic energy (in keV)of an ion that has a temperature of 10<sup>8</sup> K?</strong> A)8.2 B)13 C)4.3 D)16 E)21
108 K?

A)8.2
B)13
C)4.3
D)16
E)21
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17
A rem (roentgen equivalent in man)is defined as (the product of)

A)the dose in RBE.
B)the dose in roentgen and the RBE factor.
C)the dose in rad times the dose in roentgen.
D)the dose in rad and the RBE factor.
E)the dose in rad and energy of radiation.
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18
How much energy (in MeV)is released when a <strong>How much energy (in MeV)is released when a Fissions to And In the reaction m(n.= 1.008665 u m(U.= 235.043915 u M(Ba)= 140.9139 u M(Kr)= 91.8973 u U = 1.66 × 10−<sup>27</sup> kg</strong> A)100 B)50 C)200 D)150 E)250
Fissions to <strong>How much energy (in MeV)is released when a Fissions to And In the reaction m(n.= 1.008665 u m(U.= 235.043915 u M(Ba)= 140.9139 u M(Kr)= 91.8973 u U = 1.66 × 10−<sup>27</sup> kg</strong> A)100 B)50 C)200 D)150 E)250
And <strong>How much energy (in MeV)is released when a Fissions to And In the reaction m(n.= 1.008665 u m(U.= 235.043915 u M(Ba)= 140.9139 u M(Kr)= 91.8973 u U = 1.66 × 10−<sup>27</sup> kg</strong> A)100 B)50 C)200 D)150 E)250
In the reaction <strong>How much energy (in MeV)is released when a Fissions to And In the reaction m(n.= 1.008665 u m(U.= 235.043915 u M(Ba)= 140.9139 u M(Kr)= 91.8973 u U = 1.66 × 10−<sup>27</sup> kg</strong> A)100 B)50 C)200 D)150 E)250
m(n.= 1.008665 u
m(U.= 235.043915 u
M(Ba)= 140.9139 u
M(Kr)= 91.8973 u
U = 1.66 × 10−27 kg

A)100
B)50
C)200
D)150
E)250
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19
A thermal neutron has an energy (in eV)on the order of

A)40
B)0.4
C)4
D)0.04
E)400
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20
Which of the following is not a radiation detector?

A)cloud chamber
B)Geiger counter
C)scintillation counter
D)neutron activation
E)spark chamber
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21
A beam of high-energy α-particles is incident upon a person and deposits 0.35 J of energy in 0.80 kg of tissue.What dose in rads and what equivalent dose in rems does the individual receive? [RBE α = 20]
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22
When a beam of nuclear radiation of initial intensity I0 passes through a thickness x of material,the intensity of the beam exiting the material is I =

A)I0e−μx.
B)I0eμx.
C)I0(e−μx − 1).
D)I0(eμx − 1).
E)I0(1 − e−μx).
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23
Radiant energy reaching the Earth from the sun is not sufficient to keep the Earth's surface temperature comfortable for life.Of the following,the most likely source of the additional thermal energy is from

A)fusion of hydrogen nuclei in the Earth's core.
B)fusion of high Z nuclei in the Earth's core.
C)fission of radioactive nuclei inside the Earth.
D)fission of radioactive nuclei in cosmic rays.
E)deflection of radioactive nuclei in cosmic rays.
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24
When a nucleus at rest spontaneously splits into fragments of mass m1 and m2,the ratio of the velocity of m1 to the velocity of m2 is

A) <strong>When a nucleus at rest spontaneously splits into fragments of mass m<sub>1</sub> and m<sub>2</sub>,the ratio of the velocity of m<sub>1</sub> to the velocity of m<sub>2</sub> is</strong> A) . B) . C)−1. D) . E) . .
B) <strong>When a nucleus at rest spontaneously splits into fragments of mass m<sub>1</sub> and m<sub>2</sub>,the ratio of the velocity of m<sub>1</sub> to the velocity of m<sub>2</sub> is</strong> A) . B) . C)−1. D) . E) . .
C)−1.
D) <strong>When a nucleus at rest spontaneously splits into fragments of mass m<sub>1</sub> and m<sub>2</sub>,the ratio of the velocity of m<sub>1</sub> to the velocity of m<sub>2</sub> is</strong> A) . B) . C)−1. D) . E) . .
E) <strong>When a nucleus at rest spontaneously splits into fragments of mass m<sub>1</sub> and m<sub>2</sub>,the ratio of the velocity of m<sub>1</sub> to the velocity of m<sub>2</sub> is</strong> A) . B) . C)−1. D) . E) . .
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25
The reaction <strong>The reaction Is known as a ____ reaction.</strong> A)beta capture B)beta emission C)neutron capture D)neutron emission E)photon emission
Is known as a ____ reaction.

A)beta capture
B)beta emission
C)neutron capture
D)neutron emission
E)photon emission
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26
The nuclear reaction(s)that is(are)most likely to be employed in fusion reactors on Earth is(are)

A) <strong>The nuclear reaction(s)that is(are)most likely to be employed in fusion reactors on Earth is(are)</strong> A) . B) . C) . D)all of the above. E)only (a)and (b)above. .
B) <strong>The nuclear reaction(s)that is(are)most likely to be employed in fusion reactors on Earth is(are)</strong> A) . B) . C) . D)all of the above. E)only (a)and (b)above. .
C) <strong>The nuclear reaction(s)that is(are)most likely to be employed in fusion reactors on Earth is(are)</strong> A) . B) . C) . D)all of the above. E)only (a)and (b)above. .
D)all of the above.
E)only (a)and (b)above.
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27
When a nucleus at rest spontaneously splits into fragments of mass m1 and m2,the ratio of the momentum of m1 to the momentum of m2 is

A) <strong>When a nucleus at rest spontaneously splits into fragments of mass m<sub>1</sub> and m<sub>2</sub>,the ratio of the momentum of m<sub>1</sub> to the momentum of m<sub>2</sub> is</strong> A) . B) . C)−1. D) . E) . .
B) <strong>When a nucleus at rest spontaneously splits into fragments of mass m<sub>1</sub> and m<sub>2</sub>,the ratio of the momentum of m<sub>1</sub> to the momentum of m<sub>2</sub> is</strong> A) . B) . C)−1. D) . E) . .
C)−1.
D) <strong>When a nucleus at rest spontaneously splits into fragments of mass m<sub>1</sub> and m<sub>2</sub>,the ratio of the momentum of m<sub>1</sub> to the momentum of m<sub>2</sub> is</strong> A) . B) . C)−1. D) . E) . .
E) <strong>When a nucleus at rest spontaneously splits into fragments of mass m<sub>1</sub> and m<sub>2</sub>,the ratio of the momentum of m<sub>1</sub> to the momentum of m<sub>2</sub> is</strong> A) . B) . C)−1. D) . E) . .
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28
A radioactive sample with decay rate R and decay energy Q has power output

A) <strong>A radioactive sample with decay rate R and decay energy Q has power output</strong> A) . B)RQ. C)Q<sup>2</sup>R. D)equal to any of the above. E)equal to (a)or (c)above. .
B)RQ.
C)Q2R.
D)equal to any of the above.
E)equal to (a)or (c)above.
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29
The theory of nuclear astrophysics is that all the heavy elements like uranium are formed in the interior of massive stars.These stars eventually explode,releasing these elements into space.If we assume that at the time of the explosion there were equal amount of U-235 and U-238,how long ago did the star(s)explode that released the elements that formed our Earth? The present U-235/U-238 ratio is 0.0070.[The half-lives of U-235 and U-238 are 0.7 × 109 yr and 4.47 × 109 yr.]
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30
When a fast neutron collides with a hydrogen or deuterium nucleus,the most likely result is that

A)the neutron has an appreciable gain in kinetic energy,the gain being greatest for head-on collisions.
B)the neutron has an appreciable gain in kinetic energy,the gain being greatest for oblique collisions.
C)the neutron has an appreciable loss in kinetic energy,the loss being greatest for head-on collisions.
D)the neutron has an appreciable loss in kinetic energy,the loss being greatest for oblique collisions.
E)the neutron is absorbed by the hydrogen or deuterium nucleus.
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31
How much kinetic energy must a deuterium ion (charge 1.6 × 10−19 C)have to approach to within 10−14 m of another deuterium ion? (1 MeV = 1.6 × 10−13 J)
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32
Radioactive technetium,a gamma emitter,is taken up by the heart muscle in a medical test.The detector for the radiation emitted from the heart could be a

A)Tokamak.
B)quarter-wavelength antenna.
C)Geiger counter.
D)photoelectric tube.
E)diffraction grating.
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33
In order to control a nuclear reactor,control rods can be pulled out of or pushed into the reactor core by remote control.These rods control the reactor by

A)slowing down the fast neutrons so the neutrons can be absorbed by 238U.
B)speeding up slow neutrons so the neutrons can be absorbed by 238U.
C)slowing down fast neutrons so they cannot initiate further fusion reactions in 235U.
D)speeding up fast neutrons so they cannot initiate further fusion reactions in 235U.
E)capturing thermal neutrons so they cannot initiate further fission reactions in 235U.
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34
In neutron capture by an atomic nucleus,the mass number of the nucleus changes by

A)−2.
B)−1.
C)0.
D)+1.
E)+2.
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35
In neutron capture by an atomic nucleus,the atomic number changes by

A)−2.
B)−1.
C)0.
D)+1.
E)+2.
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36
Background radiation from cosmic rays and radioactive nuclei in our surroundings is about 0.13 rem/year.Suppose we assume this all comes from cosmic rays which have an RBE factor of 1.0.The RBE factor for the most dangerous types of radiation is 20.How many rads of the most dangerous radiation could a 100-year-old person have been exposed to in her lifetime without having gone over the recommended limit of 0.5 rem/year?

A)0.37
B)0.50
C)1.85
D)13
E)37
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37
In the Lawson number what do the n and <strong>In the Lawson number what do the n and Stand for?</strong> A)ion density,critical ignition temperature. B)ion density,confinement time. C)neutrino density,confinement time D)ion density,critical ignition temperature E)neutrino density,reaction mean life.
Stand for?

A)ion density,critical ignition temperature.
B)ion density,confinement time.
C)neutrino density,confinement time
D)ion density,critical ignition temperature
E)neutrino density,reaction mean life.
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38
A nuclear reactor is said to be critical when the average number of neutrons from each fission event that cause(s)another fission event is

A)<1.
B)1.
C)>1.
D)any of the above.
E)only (b)or (c)above.
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39
How many grams of deuterium (atomic mass = 2.0141 u)must be fused to helium (atomic mass 4.0026 u)in one second to produce 3000 MJ of energy? [1 u = 1.66 × 10−27 kg]
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40
How many grams of U-235 must be fissioned every day to produce 1000 MW of electricity in a nuclear power plant that is 1/3 efficient? [Assume 208 MeV/fission and 1 MeV = 1.6 × 10−13 J]
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