Page 1
How much kinetic energy must a deuterium ion (charge = 1.6 x 10-19 C) have to approach within 10-14 m of another deuterium ion? [k = 9 x 109 N-m2 /C2 and 1 MeV = 1.6 x 10-13 J]
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25% 25%25%25%
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1. 30 KeV
2. 50 KeV
3. 70 KeV
4. 140 KeV
Page 2
How fast is an ion of deuterium moving if it is in a plasma with a temperature of 108 K? (kB = 1.38 x 10-23 J/K and mD = 2 x 1.66 x 10-27 kg)
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1. 1.12 x 106 m/s
2. 0.93 x 105 m/s
3. 0.46 x 105 m/s
4. 2.32 x 104 m/s
Page 3
One in 6500 water molecules (on average) contains a deuterium atom. If all the deuterium could be extracted from 1 m3 of water and then reacted, how much energy could be obtained? (Each D-D fusion liberates 3.65 MeV of energy, 1 MeV = 1.6 x 10-13 J)
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1. 8.0 x 1010 J
2. 9.6 x 1010 J
3. 4.8 x 1011 J
4. 1.5 x 1012 J
Page 4
The reason that a thermonuclear fusion reaction cannot be maintained in the oceans of the earth is because?
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1. the temperature is not high enough.
2. the density is not high enough.
3. there is insufficient deuterium in the ocean.
4. the deuterium in the ocean is not radioactive.
Page 5
The tokamak is used instead of the walls of a container to confine a plasma for nuclear fusion because, if the plasma touched the walls of a container, the nuclear fusion reaction would have to stop because?
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1. the plasma would become cooler.
2. the plasma would melt the walls.
3. the walls would become radioactive.
4. the walls would not be strong enough to contain the plasma.
Page 6
The formation of a star requires the consideration of the effects of gravity and the energy from nuclear reactions and a star will form only when both the temperature and density are sufficiently high. In the birth of a star,
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1. gravity produces the initial required high temperature and density.
2. nuclear reactions produce the initial high temperature.
3. nuclear reactions produce the initial required high density.
4. nuclear reactions produce the initial required high temperature and density.
Page 7
Which of the following is not true of neutrinos?
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1. spinless
2. chargeless
3. massless
4. lepton
Page 8
Which of the following particle reactions cannot occur?
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1. p + p¯→ 2g
2. g + p→ n + po
3. po + n → K+
4. p+ + p → K+ + S+
Page 9
Which of the following particle reactions cannot occur?
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1. p + n → p + p + p¯
2. n → p + e ¯ + ve ¯
3. µ¯ → e ¯ + ve ¯ + vµ
4. p¯ → µ¯ + ve
Page 10
The attractive force between protons and neutrons in the nucleus is brought about by the exchange of a virtual pi-meson (mp = 140 MeV/c2 ). Estimate the longest time a po can exist in accordance with the uncertainty principle DEDt = Ç. (Ç = 1.054 x 10-34 J-s, 1 eV = 1.6 x 10-19 J)
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25% 25%25%25%
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1. 3.3 x 10-18 s
2. 2.4 x 10-21 s
3. 4.7 x 10-24 s
4. 6.9 x 10-27 s
Page 11
The pion (mp = 135 MeV/c2) is thought to be the particle exchanged in the nuclear force. What is the maximum range of this particle if its "time of existence" is as long as can be allowed by the uncertainty principle? (Ç = 1.054 x 10-34 J-s)
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25% 25%25%25%
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1. 1.2 x 10-15 m
2. 1.5 x 10-15 m
3. 2.0 x 10-15 m
4. 7.5 x 10-15 m
Page 12
If two quarks in an anti-proton have the color anti-red and anti-blue, the third quark must have the color?
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1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
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1. red.
2. blue.
3. anti-purple.
4. anti-green.
Page 13
The spin of all quarks is?
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25% 25%25%25%
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
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1. 0.
2. 1/2.
3. 1.
4. 1/3 or 2/3.
Page 14
The charge of some quarks or anti-quarks is?
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25% 25%25%25%
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1. 0.
2. 1/2 (1.6 x 10-19)C.
3. 1/3 (1.6 x 10-19) C.
4. 1 (1.6 x 10-19) C.
Page 15
The strong force which acts between an electron and a quark is caused by the exchange of?
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1. photons.
2. gluons.
3. gravitons.
4. W+, W-, and Z0 bosons.
Page 16
Theoretical physicists have had the least success in combining which force with the electromagnetic force?
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1. strong nuclear force
2. weak nuclear force
3. gravitational force
4. electrical Coulomb force
Page 17
Theoretical physicists have had the greatest success in combining which force with the electromagnetic force?
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1. strong nuclear force
2. weak nuclear force
3. gravitational force
4. the force caused by the exchange of gluons
Page 18
Which of the following can only occur if the reproduction constant, K, exceeds 1?
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1. Nuclear meltdown at a nuclear power plant
2. Explosive release of radioactivity and steam from a nuclear power plant
3. The explosion of a nuclear bomb
4. All of the choices require that K exceed 1
Page 19
One result of thermal pollution in water near nuclear power plants in Canada is that?
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1. roses can be grown near the plant in December.
2. the water contains toxic poisons.
3. the fish in the water are radioactive.
4. all the fish in the water are killed.
Page 20
Which of the following will not influence the rate at which nuclear reactions will occur in a nuclear power plant where the fuel elements are a mixture of U-235 and U-238?
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1. The presence of moderating material
2. The presence of control rods
3. The percentage of U-235 relative to U-238
4. The percentage of the energy that is used to produce electricity
Page 21
In a nuclear fission process involving the use of Pu-239 fuel, if the approximate average binding energy per nucleon in the product fragments is 8.5 MeV while that of the fuel atom is 7.7 MeV, what approximate net energy is released per fission?
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25% 25%25%25%
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1. 191 MeV
2. 239 MeV
3. 2030 MeV
4. 3850 MeV
Page 22
The rate that an organism absorbs and circulates nutrient materials into its body can be measured by a nuclear technique involving which of the following?
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1. neutron activation
2. tracing
3. scintillation counting
4. plasma confinement
Page 23
In a fission reaction, a U-235 nucleus captures a neutron. What energy is released if the products are I-139, Y-95 and two neutrons? (atomic masses: U-235, 235.0439: I-139, 138.9350; Y-95, 94.9134; neutron, 1.00867; and 1 u x c2 = 931.5 MeV)
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25% 25%25%25%
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
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1. 123 MeV
2. 174 MeV
3. 199 MeV
4. 218 MeV
Page 24
The water surrounding the fuel rods in a nuclear fission reactor serves what purpose(s)?
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1. coolant
2. Moderator
3. both moderator and coolant
4. none of these
Page 25
The K-ratio in a uranium fuel reactor is defined as the average number of neutrons from each fission event that will cause another event. In a well-functioning reactor, it is desired that the K-ratio have what value?
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1. zero
2. 0.5
3. 1.0
4. 2.0
Page 26
In a fusion reactor, the high temperature of the order of 108 K is required in order that what condition is met?
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1. melt down the hydrogen fuel
2. strip the hydrogen atoms of their electrons
3. break the protons into their elementary particle sub-parts
4. overcome Coulomb repelling forces between protons
Page 27
What characteristic is preferred in the elements contained in moderator materials when used in a nuclear fission reactor?
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1. low atomic mass
2. metallic
3. non-metallic
4. high atomic mass
Page 28
In a fission reaction, a U-235 nucleus captures a neutron. This results in the creation of the products I-137 and Y-96 along with how many neutrons?
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1. 1
2. 2
3. 3
4. 5
Page 29
Assume that (i) the energy released per fission event of U-235 is 208 MeV and (ii) 30% of the nuclear energy released in a power plant is ultimately converted to usable electrical energy. Approximately how many fission events will occur in one second in order to provide the 2.0 kW electrical power needs of a typical home? (1 eV = 1.6 x 10-
19 J)
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25% 25%25%25%
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1. 3 x 1010 fissions per sec
2. 2 x 1014 fissions per sec
3. 5 x 1018 fissions per sec
4. 3 x 1021 fissions per sec
Page 30
Calculate the energy released in the following fusion reaction where reactants are Li-6 and a neutron; products are He-4 and H-3. (atomic masses: Li-6, 6.01512; neutron, 1.00867; He-4, 4.00260; H-3, 3.016031; also 1 u x c2 = 931.5 MeV)
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25% 25%25%25%
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1. 2.9 MeV
2. 4.8 MeV
3. 8.6 MeV
4. 17.2 MeV
Page 31
In a nuclear fusion reactor, the Lawson criterion prescribes the necessary conditions, as related to density and confinement time of the plasma fuel, in order that the process produces a net power output. If the fuel density were doubled, by what factor would the required confinement time change?
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1. 0.25
2. 0.50
3. 1.4
4. 2.0
Page 32
A capture by a target nucleus of uranium-235 is most apt to occur for which type of "bullet" particle?
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1. low velocity alpha particle
2. low velocity proton
3. high velocity neutron
4. low velocity neutron
Page 33
The moderator material in a nuclear fission reactor is intended to fulfill which of the following purposes?
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1. absorb neutrons
2. create new neutrons
3. accelerate neutrons
4. decelerate neutrons
Page 34
In a nuclear reactor which uses the fission process, which of the following is the most likely result in the event of a cooling system failure followed by a nuclear accident?
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1. proliferation of plutonium fuel
2. accumulation of critical mass of fissionable material
3. spread of radioactive material into the environment
4. reduction of ozone in upper atmosphere
Page 35
When comparing product nuclei to reactant nuclei in an exothermal nuclear fusion process, which has the greater binding energy per nucleon?
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1. greater in product nuclei
2. greater in reactant nuclei
3. equal in both product and reactant nuclei
4. none of these
Page 36
The advantage of a fission reactor when compared to a fusion reactor is which of the following?
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1. the fuel is cheaper
2. there is less radioactive waste material
3. both cheaper fuel and less radioactive waste material
4. none of these
Page 37
A plasma can be contained in a "magnetic bottle" because it has which of the following properties?
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1. high temperature
2. liquid in form
3. made of charged particles
4. made of light elements
Page 38
If a self-sustained controlled fusion reaction is to operate, a condition which must be met is that the fuel material be subjected to which of the following condition(s)?
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1. confined for sufficient time period
2. have sufficiently high density
3. be at sufficiently high temperature
4. all of these
Page 39
The mass of a proton is greater if it is in the nucleus of which of the following elements?
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1. hydrogen
2. iron
3. uranium
4. krypton
Page 40
It is possible to detect small amounts of arsenic in the hair of a deceased person by a technique involving which of the following?
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1. Carbon-14 dating
2. nuclear fission
3. neutron activation
4. isotopic separation
Page 41
According to the standard model, a quark and its anti-quark may have the same?
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1. spin.
2. baryon number.
3. color.
4. all these things may be the same.
Page 42
According to the standard model, there are some cases in which a quark and its anti-quark have the same?
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1. charge.
2. baryon number.
3. strangeness.
4. all these things are always different.
Page 43
The S+, S0, and S- all have strangeness of (-1). The collision of an anti-proton and a neutron may produce which of the following particles?
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1. S- and S0
2. S+ and anti-S0
3. anti-S+ and S0
4. anti-S- and S0
Page 44
The S+, S0, and S- all have strangeness of (-1). The collision of a proton and a neutron to produce a S0 and an anti-S- cannot occur because it does not conserve?
1 2 3 4
25% 25%25%25%
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
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1. strangeness.
2. charge.
3. baryon number.
4. all of the choices.
Page 45
If a photon produces an electron-positron pair and one other particle, the other particle may be a(n)?
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1. muon.
2. anti-neutrino.
3. neutrino.
4. photon.
Page 46
Experimentally, strange particles can be produced in abundance but they decay relatively slowly. This occurs because strangeness?
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1. is conserved in both their production and decay.
2. is conserved in their production but not in their decay.
3. is conserved in their decay but not in their production.
4. is not conserved in either their production or their decay.
Page 47
The strangeness of an anti-proton is?
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25% 25%25%25%
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1. +1
2. 0
3. -1
4. -2
Page 48
If a negative muon decays to form an electron-positron pair and one other particle, the other particle may be a(n)?
1 2 3 4
25% 25%25%25%
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
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1. positron.
2. anti-neutrino.
3. neutrino.
4. electron.
Page 49
What quantity is conserved in the following reaction? n → p + e ¯ + ve ¯
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1. baryon number
2. charge
3. lepton number
4. all of the choices
Page 50
What quantity is conserved in the following reaction?anti-n → p + e ¯ + ve ¯
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25% 25%25%25%
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
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1. baryon number
2. charge
3. lepton number
4. all of the choices
Page 51
A photon hits an electron and an anti-proton is created. Some uncharged particles must have left the collision. These are?
1 2 3 4
25% 25%25%25%
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1. neutron and neutrino.
2. neutron and anti-neutrino.
3. photon and neutrino.
4. photon and anti-neutrino.
Page 52
A negative muon decays to form an electron and a neutrino and one additional particle. The other particle must be a(n)?
1 2 3 4
25% 25%25%25%
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
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1. positron.
2. anti-neutrino.
3. neutrino.
4. photon.
Page 53
A neutrino and a proton have the same?
1 2 3 4
25% 25%25%25%
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
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1. charge.
2. spin.
3. mass.
4. baryon number.
Page 54
Which of these particles has the most mass?
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25% 25%25%25%
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1. pion.
2. muon.
3. electron.
4. positron.
Page 55
Calculate the range of the force that might be produced by the virtual exchange of a proton. (mp = 1.67 x 10-27 kg, c = 3 x 108 m/s, and h/2p = 1.05 x 10-34 J-s)
1 2 3 4
25% 25%25%25%
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1. 6.7 x 10-25 m
2. 2.0 x 10-16 m
3. 6.0 x 10-8 m
4. 1.5 x 10-15 m
Page 56
The virtual exchange of photons can produce?
1 2 3 4
25% 25%25%25%
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
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1. a repulsive force.
2. an attractive force.
3. either a repulsive or an attractive force.
4. neither a repulsive nor an attractive force.
Page 57
Which of the following particles has not been observed experimentally?
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25% 25%25%25%
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1. photon
2. graviton
3. pion
4. Zo boson
Page 58
According to present theories, there is a neutrino for all the following particles except the?
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1. pion.
2. electron.
3. muon.
4. tau lepton.
Page 59
The size and sign of the charge on an electron is the same as that for?
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1. a positron.
2. an anti-proton.
3. an anti-neutron.
4. an anti-neutrino.
Page 60
Which particle was the last to be discovered?
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1. electron
2. neutrino
3. neutron
4. proton
Page 61
Which particle in the free state is least stable?
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1. electron
2. neutrino
3. neutron
4. proton
Page 62
Which of the following forces is the weakest?
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1. strong nuclear
2. weak nuclear
3. electromagnetic
4. gravitational
Page 63
Which force can act over distances comparable to the distance between planets?
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1. only gravitational
2. only electrical
3. only magnetic
4. all of the choices
Page 64
The Dirac theory predicted that a positron would be?
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1. a negative electron in a negative energy state.
2. a particle with same mass as an electron but with opposite charge and spin.
3. a particle with negative mass.
4. all of the choices.
Page 65
A positron and an electron differ in?
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1. charge.
2. mass.
3. spin.
4. energy.
Page 66
Calculate the energy (in kWH) given off if 1 kg of plutonium-239 undergoes complete fission. The energy released per fission is 200 MeV. (1 MeV = 1.6 x 10-13 J)
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1. 1.17 x 105 kWH
2. 7.67 x 106 kWH
3. 11.4 x 106 kWH
4. 22.3 x 106 kWH
Page 67
A proton and antiproton each with total energy 400 GeV collide head-on. What is the total energy (particles + energy) released?
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1. 800 GeV
2. 400 GeV
3. zero
4. 1600 GeV
Page 68
If a Ko meson at rest decays in 0.9 x 10-10 s, how far will a Ko meson moving at 0.96 c travel through a bubble chamber?
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1. 9.3 cm
2. 1.1 cm
3. 53 cm
4. 42 cm
Page 69
Which of the following decays violates conservation of lepton number?
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1. p+ → µ + + vµ. .
2. K+ → µ + + vµ .
3. n → p + e ¯ + ve ¯.
4. µ¯ → e ¯ + ve.