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Deck 31: Nuclear Energy; Effects and Uses of Radiation

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Question
Choose the one alternative that best completes the statement or answers the question.
In the nuclear reaction 13H+13HX+24He{ } _ { 1 } ^ { 3 } \mathrm { H } + { } _ { 1 } ^ { 3 } \mathrm { H } \rightarrow \mathrm { X } + { } _ { 2 } ^ { 4 } \mathrm { He } , what is X\mathrm { X } ?

A) 2 protons
B) 2H2 \mathrm { H }
C) 2 neutrons
D) alpha particle
E) 3H3 \mathrm { H }
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Question
Choose the one alternative that best completes the statement or answers the question.
A proton strikes an oxygen-18 nucleus, producing fluorine-18 and another particle X. What is the other particle X?

A) gamma ray
B) alpha particle
C) electron
D) positron
E) neutron
Question
Choose the one alternative that best completes the statement or answers the question.
The energy radiated by a star, such as the sun, results chiefly from

A) fission reactions.
B) alpha decay.
C) fusion reactions.
D) beta decay.
E) radioactivity.
Question
Choose the one alternative that best completes the statement or answers the question.
What is the meaning of the term "critical mass" in regard to nuclear fission?

A) This is the minimum amount of fissionable material required to sustain a chain reaction.
B) This is the amount of material that is just on the verge of becoming radioactive.
C) This is the amount of mass needed to make a power reactor economically feasible.
D) This is the mass of the "critical" elements in a reactor, i.e., the uranium or plutonium.
Question
Choose the one alternative that best completes the statement or answers the question.
The chief hazard of radiation damage to living cells is

A) due to the creation of chemical impurities.
B) due to ionization.
C) the creation of new isotopes within the body.
D) the creation of radioactive material within the body.
E) due to heating.
Question
Choose the one alternative that best completes the statement or answers the question.
In the nuclear reaction 1938 K+11HX+2038Ca{ } _ { 19 } ^ { 38 } \mathrm {~K} + { } _ { 1 } ^ { 1 } \mathrm { H } \rightarrow \mathrm { X } + { } _ { 20 } ^ { 38 } \mathrm { Ca } , what is X\mathrm { X } ?

A) alpha particle
B) 2H2 \mathrm { H }
C) proton
D) neutron
E) 3H3 \mathrm { H }
Question
Write the word or phrase that best completes each statement or answers the question.
Determine the missing product XX in the following nuclear reaction: 816O+{ } _ { 8 } ^ { 16 } \mathrm { O } + neutron X+\rightarrow \mathrm { X } + alpha particle
Question
Choose the one alternative that best completes the statement or answers the question.
The equation shows a fission reaction:
92235U+01n4199Nb+X+401n{ } _ { 92 } ^ { 235 } \mathrm { U } + { } _ { 0 } ^ { 1 } \mathrm { n } \rightarrow { } _ { 41 } ^ { 99 } \mathrm { Nb } + \mathrm { X } + 4 { } _ { 0 } ^ { 1 } \mathrm { n }
What is the missing term XX in the equation?

A) 51136Sb{ } _ { 51 } ^ { 136 } \mathrm { Sb }
B) 47133Ag{ } _ { 47 } ^ { 133 } \mathrm { Ag }
C) 51139Sb{ } _ { 51 } ^ { 139 } \mathrm { Sb }
D) 51133Sb{ } _ { 51 } ^ { 133 } \mathrm { Sb }
E) 47136Ag{ } _ { 47 } ^ { 136 } \mathrm { Ag }
Question
Choose the one alternative that best completes the statement or answers the question.
In the nuclear reaction 816O+01nX+24He{ } _ { 8 } ^ { 16 } \mathrm { O } + { } _ { 0 } ^ { 1 } \mathrm { n } \rightarrow \mathrm { X } + { } _ { 2 } ^ { 4 } \mathrm { He } , what is X\mathrm { X } ?

A) 12C{ } ^ { 12 } \mathrm { C }
B) 15C15 \mathrm { C }
C) 13C13 \mathrm { C }
D) 14C14 \mathrm { C }
Е) 17O17 \mathrm { O }
Question
Choose the one alternative that best completes the statement or answers the question.
The maximum permissible workday dose for occupational exposure to radiation is 18mrem18 \mathrm { mrem } . A 54-kg laboratory technician absorbs 2.6 mJ2.6 \mathrm {~mJ} of 0.30MeV0.30 - \mathrm { MeV } gamma rays in a work day. The relative biological effectiveness (RBE) for gamma rays is 1.001.00 . What is the ratio of the equivalent dosage received by the technician to the maximum permissible equivalent dosage?

A) 0.370.37
B) 0.290.29
C) 0.270.27
D) 0.320.32
Е) 0.350.35
Question
Write the word or phrase that best completes each statement or answers the question.
Determine the missing product XX in the following nuclear reaction: 92235U+{ } _ { 92 } ^ { 235 } \mathrm { U } + neutron 56141Ba+X+3\rightarrow { } _ { 56 } ^ { 141 } \mathrm { Ba } + \mathrm { X } + 3 neutrons
Question
Write the word or phrase that best completes each statement or answers the question.
Determine the missing product X in the nuclear reaction 92238U+01nX+2β{ } _ { 92 } ^ { 238 } U + { } _ { 0 } ^ { 1 } n \rightarrow X + 2 \beta ^ { - }
Question
Choose the one alternative that best completes the statement or answers the question.
A 70kg70 - \mathrm { kg } researcher absorbs 4.5×1084.5 \times 10 ^ { 8 } neutrons in a work day, each of energy 1.2MeV1.2 \mathrm { MeV } . The relative biological effectiveness (RBE) for these neutrons is 10. What is the equivalent dosage of the radiation exposure for this researcher, in millirem?

A) 3.7mrem3.7 \mathrm { mrem }
B) 1.2mrem1.2 \mathrm { mrem }
C) 0.77mrem0.77 \mathrm { mrem }
D) 0.39mrem0.39 \mathrm { mrem }
E) 12mrem12 \mathrm { mrem }
Question
Choose the one alternative that best completes the statement or answers the question.
A person receives an absorbed dose of protons of 20 millirads. The RBE of protons is 5. What is this person's equivalent dose in rem?

A) 25 millirem
B) 15 millirem
C) 20 millirem
D) 100 millirem
E) 4 millirem
Question
Write the word or phrase that best completes each statement or answers the question.
Determine the missing product XX in the following nuclear reaction: 510 B+{ } _ { 5 } ^ { 10 } \mathrm {~B} + neutron X+\rightarrow \mathrm { X } + alpha particle
Question
Choose the one alternative that best completes the statement or answers the question.
The maximum permissible workday dose for occupational exposure to radiation is 11mrem11 \mathrm { mrem } . A 77-kg laboratory technician absorbs 2.3 mJ2.3 \mathrm {~mJ} of 0.5MeV0.5 - \mathrm { MeV } gamma rays in a work day. The relative biological effectiveness (RBE) for gamma rays is 1.001.00 . What is the number of gamma-ray photons absorbed by the technician in a workday?

A) 1×1091 \times 10 ^ { 9 }
B) 1×1081 \times 10 ^ { 8 }
C) 3×1093 \times 10 ^ { 9 }
D) 3×1083 \times 10 ^ { 8 }
E) 3×10103 \times 10 ^ { 10 }
Question
Choose the one alternative that best completes the statement or answers the question.
In the fission reaction 235U+1n141Ba+92Kr+x1n235 \mathrm { U } + { } ^ { 1 } \mathrm { n } \rightarrow { } ^ { 141 } \mathrm { Ba } + 92 \mathrm { Kr } + x ^ { 1 } \mathrm { n } , what is the number xx of neutrons produced?

A) 0
B) 2
C) 3
D) 1
Question
Write the word or phrase that best completes each statement or answers the question.
Determine the missing product XX in the following nuclear reaction: 713 N+{ } _ { 7 } ^ { 13 } \mathrm {~N} + neutron X+\rightarrow \mathrm { X } + alpha particle
Question
Choose the one alternative that best completes the statement or answers the question.
In the nuclear reaction 816O+24HeX+1019Ne{ } _ { 8 } ^ { 16 } \mathrm { O } + { } _ { 2 } ^ { 4 } \mathrm { He } \rightarrow \mathrm { X } + { } _ { 10 } ^ { 19 } \mathrm { Ne } , what is X\mathrm { X } ?

A) alpha particle
B) 3H3 \mathrm { H }
C) neutron
D) 2H2 \mathrm { H }
E) proton
Question
Choose the one alternative that best completes the statement or answers the question.
The main fuel for producing energy in the center of the sun is

A) uranium.
B) oxygen.
C) hydrogen.
D) any radioactive material.
E) helium.
Question
Choose the one alternative that best completes the statement or answers the question.
Consider the nuclear reaction 714 N+24He817O+11H{ } _ { 7 } ^ { 14 } \mathrm {~N} + { } _ { 2 } ^ { 4 } \mathrm { He } \rightarrow { } _ { 8 } ^ { 17 } \mathrm { O } + { } _ { 1 } ^ { 1 } \mathrm { H } . The known atomic masses are 714 N:14.003074u{ } _ { 7 } ^ { 14 } \mathrm {~N} : \quad 14.003074 \mathrm { u }
24He:4.002603u{ } _ { 2 } ^ { 4 } \mathrm { He } : \quad 4.002603 \mathrm { u }
11H:1.007825u{ } _ { 1 } ^ { 1 } \mathrm { H } : \quad 1.007825 \mathrm { u }
817O:16.999131u{ } _ { 8 } ^ { 17 } \mathrm { O } : \quad 16.999131 \mathrm { u }
What is the Q-value (or reaction energy) of this reaction? (1u=931.5MeV/c2)\left( 1 \mathrm { u } = 931.5 \mathrm { MeV } / c ^ { 2 } \right)

A) 6.725MeV- 6.725 \mathrm { MeV }
B) 2.020MeV- 2.020 \mathrm { MeV }
C) 9.055MeV- 9.055 \mathrm { MeV }
D) 1.191MeV- 1.191 \mathrm { MeV }
Question
Choose the one alternative that best completes the statement or answers the question.
When 235U undergoes fission, the average energy per fission event is 200MeV200 \mathrm { MeV } . How much energy is released in the total fission of 2.0 g2.0 \mathrm {~g} of 235U235 \mathrm { U } ? (1eV=1.60×1019 J,mneutron mproton =1.67×\left( 1 \mathrm { eV } = 1.60 \times 10 ^ { - 19 } \mathrm {~J} , m _ { \text {neutron } } \approx m _ { \text {proton } } = 1.67 \times \right. 10-27 kg)

A) 3.9×1010 J3.9 \times 10 ^ { 10 } \mathrm {~J}
B) 1.6×1011 J1.6 \times 10 ^ { 11 } \mathrm {~J}
C) 1.6×105 J1.6 \times 10 ^ { 5 } \mathrm {~J}
D) 3.9×1013 J3.9 \times 10 ^ { 13 } \mathrm {~J}
Question
Choose the one alternative that best completes the statement or answers the question.
If a 2.0-MeV neutron released in a fission reaction loses half its kinetic energy in each moderator collision, how many collisions are needed to reduce its kinetic energy to 1/25eV1 / 25 \mathrm { eV } ?

A) 30
B) 4
C) 26
D) 18
E) 6
Question
Choose the one alternative that best completes the statement or answers the question.
Consider the nuclear reaction 714 N+24He817O+11H{ } _ { 7 } ^ { 14 } \mathrm {~N} + { } _ { 2 } ^ { 4 } \mathrm { He } \rightarrow { } _ { 8 } ^ { 17 } \mathrm { O } + { } _ { 1 } ^ { 1 } \mathrm { H } . The known atomic masses are 714 N:14.003074u{ } _ { 7 } ^ { 14 } \mathrm {~N} : \quad 14.003074 \mathrm { u }
24He:4.002603u{ } _ { 2 } ^ { 4 } \mathrm { He } : \quad 4.002603 \mathrm { u }
11H:1.007825u{ } _ { 1 } ^ { 1 } \mathrm { H } : \quad 1.007825 \mathrm { u }
817O:16.999131u{ } _ { 8 } ^ { 17 } \mathrm { O } : \quad 16.999131 \mathrm { u }
What is the QQ -value (or reaction energy) of this reaction? (1u=931.5MeV/c2)\left( 1 \mathrm { u } = 931.5 \mathrm { MeV } / \mathrm { c } ^ { 2 } \right)

A) 1.191MeV1.191 \mathrm { MeV }
B) 1.279×103MeV- 1.279 \times 10 ^ { - 3 } \mathrm { MeV }
C) 1.279×103MeV1.279 \times 10 ^ { - 3 } \mathrm { MeV }
D) 1.191MeV- 1.191 \mathrm { MeV }
Question
Choose the one alternative that best completes the statement or answers the question.
Choose the one alternative that best completes the statement or answers the question. <div style=padding-top: 35px>
Question
Write the word or phrase that best completes each statement or answers the question.
Consider the fusion reaction:
12H+12H+12H24He+11H+01n{ } _ { 1 } ^ { 2 } \mathrm { H } + { } _ { 1 } ^ { 2 } \mathrm { H } + { } _ { 1 } ^ { 2 } \mathrm { H } \rightarrow { } _ { 2 } ^ { 4 } \mathrm { He } + { } _ { 1 } ^ { 1 } \mathrm { H } + { } _ { 0 } ^ { 1 } \mathrm { n }
The know atomic masses are
12H:2.01410u{ } _ { 1 } ^ { 2 } \mathrm { H } : \quad 2.01410 \mathrm { u }
24He:4.00260u{ } _ { 2 } ^ { 4 } \mathrm { He } : \quad 4.00260 \mathrm { u }
11H:1.00783u{ } _ { 1 } ^ { 1 } \mathrm { H } : \quad 1.00783 \mathrm { u }
01n:1.008665u{ } _ { 0 } ^ { 1 } \mathrm { n } : \quad 1.008665 \mathrm { u }
where 1u=1.6605×1027 kg1 \mathrm { u } = 1.6605 \times 10 ^{- 27} \mathrm {~kg} . What mass of deuterium fuel, 12H{ } _ { 1 } ^ { 2 } \mathrm { H } , is used up in producing 5.6×1015 J5.6 \times 10^{15} \mathrm {~J} of energy by this reaction?
Question
Choose the one alternative that best completes the statement or answers the question.
Two deuterium nuclei, 12H{ } _ { 1 } ^ { 2 } \mathrm { H } , fuse to produce a tritium nucleus, 13H{ } _ { 1 } ^ { 3 } \mathrm { H } , plus an ordinary hydrogen nucleus, 11H{ } _ { 1 } ^ { 1 } \mathrm { H } . A neutral deuterium atom has a mass of 2.014102u2.014102 \mathrm { u } ; a neutral tritium atom has a mass of 3.016050u3.016050 \mathrm { u } ; a neutral hydrogen atom has a mass of 1.007825u1.007825 \mathrm { u } ; a neutron has a mass of 1.008665u1.008665 \mathrm { u } ; and a proton has a mass of 1.007277u1.007277 \mathrm { u } . How much energy is released in this fusion process? (1 u = 931.5 MeV/ /c2/ c ^ { 2 } )

A) 6.58MeV6.58 \mathrm { MeV }
B) 3.53MeV3.53 \mathrm { MeV }
C) 3.03MeV3.03 \mathrm { MeV }
D) 4.53MeV4.53 \mathrm { MeV }
E) 4.03MeV4.03 \mathrm { MeV }
Question
Choose the one alternative that best completes the statement or answers the question.
An excited 92236U{ } _ { 92 } ^ { 236 } \mathrm { U } ^ { * } nucleus undergoes fission into two fragments as follows:
92236U56144Ba+3692Kr{ } _ { 92 } ^ { 236 } \mathrm { U } * \rightarrow { } _ { 56 } ^ { 144 } \mathrm { Ba } + { } _ { 36 } ^ { 92 } \mathrm { Kr }
The following atomic masses are known:
3692Kr:91.926270u{ } _ { 36 } ^ { 92 } \mathrm { Kr } : \quad 91.926270 \mathrm { u }
56144Ba:143.922845u{ } _ { 56 } ^ { 144 } \mathrm { Ba } : \quad 143.922845 \mathrm { u }
92236U:236.045563u{ } _ { 92 } ^ { 236 } \mathrm { U } ^ { * } : \quad 236.045563 \mathrm { u }
What is the reaction energy released during this fission reaction? (1u=931.5MeV/c2)\left( 1 \mathrm { u } = 931.5 \mathrm { MeV } / \mathrm { c } ^ { 2 } \right)

A) 190MeV190 \mathrm { MeV }
B) 150MeV150 \mathrm { MeV }
C) 170MeV170 \mathrm { MeV }
D) 160MeV160 \mathrm { MeV }
E) 180MeV180 \mathrm { MeV }
Question
Choose the one alternative that best completes the statement or answers the question.
An electron and a positron, both essentially at rest, annihilate each other, emitting two identical photons in the process. What is the wavelength of these photons? The mass of an electron or positron is 9.11×1031 kg9.11 \times 10 ^ { - 31 } \mathrm {~kg} . (h=6.626×1034 Js,c=3.00×108 m/s)\left( h = 6.626 \times 10 ^ { - 34 } \mathrm {~J} \cdot \mathrm { s } , c = 3.00 \times 10 ^ { 8 } \mathrm {~m} / \mathrm { s } \right)

A) 3.46pm3.46 \mathrm { pm }
B) 1.21×1012pm1.21 \times 10 ^ { - 12 } \mathrm { pm }
C) 3.07pm3.07 \mathrm { pm }
D) 2.42pm2.42 \mathrm { pm }
E) 1.73pm1.73 \mathrm { pm }
Question
Choose the one alternative that best completes the statement or answers the question.
Consider the nuclear reaction: 7Li+1p4He+4He7 \mathrm { Li } + 1 \mathrm { p } \rightarrow 4 \mathrm { He } + 4 \mathrm { He } . The known atomic masses are 7 Li: 7.016005u\quad 7.016005 \mathrm { u }
24He:4.002603u{ } _ { 2 } ^ { 4 } \mathrm { He } : \quad 4.002603 \mathrm { u }
1p: 1.007825u\quad 1.007825 \mathrm { u }
What is the QQ -value (or reaction energy) of this reaction? (1u=931.5MeV/c2)\left( 1 \mathrm { u } = 931.5 \mathrm { MeV } / \mathrm { c } ^ { 2 } \right)

A) 13.57MeV13.57 \mathrm { MeV }
B) 17.53MeV17.53 \mathrm { MeV }
C) 15.37MeV15.37 \mathrm { MeV }
D) 17.35MeV17.35 \mathrm { MeV }
Question
Choose the one alternative that best completes the statement or answers the question.
Consider the nuclear reaction 13H+13H24He+201n{ } _ { 1 } ^ { 3 } \mathrm { H } + { } _ { 1 } ^ { 3 } \mathrm { H } \rightarrow { } _ { 2 } ^ { 4 } \mathrm { He } + 2 { } _ { 0 } ^ { 1 } \mathrm { n } . The known atomic masses are
24He:4.002603u{ } _ { 2 } ^ { 4 } \mathrm { He } : \quad 4.002603 \mathrm { u }
13H:3.016049u{ } _ { 1 } ^ { 3 } \mathrm { H } : \quad 3.016049 \mathrm { u }
01n:1.008665u{ } _ { 0 } ^ { 1 } \mathrm { n } : \quad 1.008665 \mathrm { u }
What is the energy released (positive) or absorbed (negative) in this nuclear reaction? (1u=931.5( 1 \mathrm { u } = 931.5 MeV/c2\mathrm { MeV } / \mathrm { c } ^ { 2 } )

A) 0.0122MeV- 0.0122 \mathrm { MeV }
B) 11.3MeV11.3 \mathrm { MeV }
C) 11.3MeV- 11.3 \mathrm { MeV }
D) 0.0122MeV0.0122 \mathrm { MeV }
Question
Choose the one alternative that best completes the statement or answers the question.
When a neutron collides with a uranium-235 nucleus it can induce a variety of fission reactions.
One such reaction is
92235U+01n54140Xe+3894Sr+201n{ } _ { 92 } ^ { 235 } \mathrm { U } + { } _ { 0 } ^ { 1 } \mathrm { n } \rightarrow { } _ { 54 } ^ { 140 } \mathrm { Xe } + { } _ { 38 } ^ { 94 } \mathrm { Sr } + 2 { } _ { 0 } ^ { 1 } \mathrm { n }
The following mass values are known:
54140 Xe: 139.921620u3894Sr:93.915367u92235U:235.043924u01n:1.008665u\begin{array} { l l } { } _ { 54 } ^ { 140 } \text { Xe: } & 139.921620 \mathrm { u } \\{ } _ { 38 } ^ { 94 } \mathrm { Sr } : & 93.915367 \mathrm { u } \\{ } _ { 92 } ^ { 235 } \mathrm { U } : & 235.043924 \mathrm { u } \\{ } _ { 0 } ^ { 1 } \mathrm { n } : & 1.008665 \mathrm { u }\end{array}
What mass of uranium is needed to produce a 10-kiloton yield? (1u=931.5MeV/c2=1.66054×\left( 1 \mathrm { u } = 931.5 \mathrm { MeV } / c ^ { 2 } = 1.66054 \times \right. 1027 kg10 ^ { - 27 } \mathrm {~kg} , 1-kiloton yield =5.0×1012 J= 5.0 \times 10 ^ { 12 } \mathrm {~J} )

A) 1.10 kg1.10 \mathrm {~kg}
B) 0.66 kg0.66 \mathrm {~kg}
C) 3.85 kg3.85 \mathrm {~kg}
D) 6.58 kg6.58 \mathrm {~kg}
E) 0.57 kg0.57 \mathrm {~kg}
Question
Write the word or phrase that best completes each statement or answers the question.
A hypothetical particle has a mass of 510MeV/c2510 \mathrm { MeV } / \mathrm { c } ^ { 2 } . If such a particle at rest decays into two gamma-ray photons, what is the wavelength of each photon? (1eV=1.60×1019 J,c=\left( 1 \mathrm { eV } = 1.60 \times 10 ^ { - 19 } \mathrm {~J} , c = \right. 3.00×108 m/s,h=6.626×1034 Js)\left. 3.00 \times 10 ^ { 8 } \mathrm {~m} / \mathrm { s } , h = 6.626 \times 10 ^ { - 34 } \mathrm {~J} \cdot \mathrm { s } \right)
Question
Write the word or phrase that best completes each statement or answers the question.
If a Σ\Sigma ^ { - } particle at rest decays into a neutron and a π\pi ^ { - } , what is the total kinetic energy of the decay products? The masses of Σ\Sigma ^ { - } , neutron, and π\pi ^ { - } are 1197MeV/c2,940MeV/c21197 \mathrm { MeV } / c ^ { 2 } , 940 \mathrm { MeV } / c ^ { 2 } , and 140MeV/c2140 \mathrm { MeV } / c ^ { 2 } , respectively.
Question
Choose the one alternative that best completes the statement or answers the question.
A nuclear explosion results in a mass decrease of 2.10 g2.10 \mathrm {~g} . How much energy is released during this explosion? (c=3.00×108 m/s)\left( c = 3.00 \times 10 ^ { 8 } \mathrm {~m} / \mathrm { s } \right)

A) 1.89×1013 J1.89 \times 10 ^ { 13 } \mathrm {~J}
B) 2.25×1012 J2.25 \times 10 ^ { 12 } \mathrm {~J}
C) 6.30×105 J6.30 \times 10 ^ { 5 } \mathrm {~J}
D) 1.89×1014 J1.89 \times 10 ^ { 14 } \mathrm {~J}
Question
Choose the one alternative that best completes the statement or answers the question.
When a neutron collides with a uranium-235 nucleus it can induce a variety of fission reactions.
One such reaction is
92235U+01n54140Xe+3894Sr+201n{ } _ { 92 } ^ { 235 } U + { } _ { 0 } ^ { 1 } n \rightarrow { } _ { 54 } ^ { 140 } \mathrm { Xe } + { } _ { 38 } ^ { 94 } \mathrm { Sr } + 2 { } _ { 0 } ^ { 1 } \mathrm { n }
The following mass values are known:
54140{ } _ { 54 } ^ { 140 } Xe: 139.921620u\quad 139.921620 \mathrm { u }
3894Sr:93.915367u{ } _ { 38 } ^ { 94 } \mathrm { Sr } : \quad 93.915367 \mathrm { u }
92235U:235.043924u{ } _ { 92 } ^ { 235 } \mathrm { U } : \quad 235.043924 \mathrm { u }
01n:1.008665u{ } _ { 0 } ^ { 1 } \mathrm { n } : \quad 1.008665 \mathrm { u }
How much energy is released in this reaction? (1u=931.5MeV/c2)\left( 1 \mathrm { u } = 931.5 \mathrm { MeV } / \mathrm { c } ^ { 2 } \right)

A) 98.6MeV98.6 \mathrm { MeV }
B) 202MeV202 \mathrm { MeV }
C) 65.7MeV65.7 \mathrm { MeV }
D) 185MeV185 \mathrm { MeV }
E) 32.6MeV32.6 \mathrm { MeV }
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Deck 31: Nuclear Energy; Effects and Uses of Radiation
1
Choose the one alternative that best completes the statement or answers the question.
In the nuclear reaction 13H+13HX+24He{ } _ { 1 } ^ { 3 } \mathrm { H } + { } _ { 1 } ^ { 3 } \mathrm { H } \rightarrow \mathrm { X } + { } _ { 2 } ^ { 4 } \mathrm { He } , what is X\mathrm { X } ?

A) 2 protons
B) 2H2 \mathrm { H }
C) 2 neutrons
D) alpha particle
E) 3H3 \mathrm { H }
C
2
Choose the one alternative that best completes the statement or answers the question.
A proton strikes an oxygen-18 nucleus, producing fluorine-18 and another particle X. What is the other particle X?

A) gamma ray
B) alpha particle
C) electron
D) positron
E) neutron
E
3
Choose the one alternative that best completes the statement or answers the question.
The energy radiated by a star, such as the sun, results chiefly from

A) fission reactions.
B) alpha decay.
C) fusion reactions.
D) beta decay.
E) radioactivity.
C
4
Choose the one alternative that best completes the statement or answers the question.
What is the meaning of the term "critical mass" in regard to nuclear fission?

A) This is the minimum amount of fissionable material required to sustain a chain reaction.
B) This is the amount of material that is just on the verge of becoming radioactive.
C) This is the amount of mass needed to make a power reactor economically feasible.
D) This is the mass of the "critical" elements in a reactor, i.e., the uranium or plutonium.
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5
Choose the one alternative that best completes the statement or answers the question.
The chief hazard of radiation damage to living cells is

A) due to the creation of chemical impurities.
B) due to ionization.
C) the creation of new isotopes within the body.
D) the creation of radioactive material within the body.
E) due to heating.
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6
Choose the one alternative that best completes the statement or answers the question.
In the nuclear reaction 1938 K+11HX+2038Ca{ } _ { 19 } ^ { 38 } \mathrm {~K} + { } _ { 1 } ^ { 1 } \mathrm { H } \rightarrow \mathrm { X } + { } _ { 20 } ^ { 38 } \mathrm { Ca } , what is X\mathrm { X } ?

A) alpha particle
B) 2H2 \mathrm { H }
C) proton
D) neutron
E) 3H3 \mathrm { H }
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7
Write the word or phrase that best completes each statement or answers the question.
Determine the missing product XX in the following nuclear reaction: 816O+{ } _ { 8 } ^ { 16 } \mathrm { O } + neutron X+\rightarrow \mathrm { X } + alpha particle
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8
Choose the one alternative that best completes the statement or answers the question.
The equation shows a fission reaction:
92235U+01n4199Nb+X+401n{ } _ { 92 } ^ { 235 } \mathrm { U } + { } _ { 0 } ^ { 1 } \mathrm { n } \rightarrow { } _ { 41 } ^ { 99 } \mathrm { Nb } + \mathrm { X } + 4 { } _ { 0 } ^ { 1 } \mathrm { n }
What is the missing term XX in the equation?

A) 51136Sb{ } _ { 51 } ^ { 136 } \mathrm { Sb }
B) 47133Ag{ } _ { 47 } ^ { 133 } \mathrm { Ag }
C) 51139Sb{ } _ { 51 } ^ { 139 } \mathrm { Sb }
D) 51133Sb{ } _ { 51 } ^ { 133 } \mathrm { Sb }
E) 47136Ag{ } _ { 47 } ^ { 136 } \mathrm { Ag }
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9
Choose the one alternative that best completes the statement or answers the question.
In the nuclear reaction 816O+01nX+24He{ } _ { 8 } ^ { 16 } \mathrm { O } + { } _ { 0 } ^ { 1 } \mathrm { n } \rightarrow \mathrm { X } + { } _ { 2 } ^ { 4 } \mathrm { He } , what is X\mathrm { X } ?

A) 12C{ } ^ { 12 } \mathrm { C }
B) 15C15 \mathrm { C }
C) 13C13 \mathrm { C }
D) 14C14 \mathrm { C }
Е) 17O17 \mathrm { O }
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10
Choose the one alternative that best completes the statement or answers the question.
The maximum permissible workday dose for occupational exposure to radiation is 18mrem18 \mathrm { mrem } . A 54-kg laboratory technician absorbs 2.6 mJ2.6 \mathrm {~mJ} of 0.30MeV0.30 - \mathrm { MeV } gamma rays in a work day. The relative biological effectiveness (RBE) for gamma rays is 1.001.00 . What is the ratio of the equivalent dosage received by the technician to the maximum permissible equivalent dosage?

A) 0.370.37
B) 0.290.29
C) 0.270.27
D) 0.320.32
Е) 0.350.35
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11
Write the word or phrase that best completes each statement or answers the question.
Determine the missing product XX in the following nuclear reaction: 92235U+{ } _ { 92 } ^ { 235 } \mathrm { U } + neutron 56141Ba+X+3\rightarrow { } _ { 56 } ^ { 141 } \mathrm { Ba } + \mathrm { X } + 3 neutrons
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12
Write the word or phrase that best completes each statement or answers the question.
Determine the missing product X in the nuclear reaction 92238U+01nX+2β{ } _ { 92 } ^ { 238 } U + { } _ { 0 } ^ { 1 } n \rightarrow X + 2 \beta ^ { - }
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13
Choose the one alternative that best completes the statement or answers the question.
A 70kg70 - \mathrm { kg } researcher absorbs 4.5×1084.5 \times 10 ^ { 8 } neutrons in a work day, each of energy 1.2MeV1.2 \mathrm { MeV } . The relative biological effectiveness (RBE) for these neutrons is 10. What is the equivalent dosage of the radiation exposure for this researcher, in millirem?

A) 3.7mrem3.7 \mathrm { mrem }
B) 1.2mrem1.2 \mathrm { mrem }
C) 0.77mrem0.77 \mathrm { mrem }
D) 0.39mrem0.39 \mathrm { mrem }
E) 12mrem12 \mathrm { mrem }
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14
Choose the one alternative that best completes the statement or answers the question.
A person receives an absorbed dose of protons of 20 millirads. The RBE of protons is 5. What is this person's equivalent dose in rem?

A) 25 millirem
B) 15 millirem
C) 20 millirem
D) 100 millirem
E) 4 millirem
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15
Write the word or phrase that best completes each statement or answers the question.
Determine the missing product XX in the following nuclear reaction: 510 B+{ } _ { 5 } ^ { 10 } \mathrm {~B} + neutron X+\rightarrow \mathrm { X } + alpha particle
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16
Choose the one alternative that best completes the statement or answers the question.
The maximum permissible workday dose for occupational exposure to radiation is 11mrem11 \mathrm { mrem } . A 77-kg laboratory technician absorbs 2.3 mJ2.3 \mathrm {~mJ} of 0.5MeV0.5 - \mathrm { MeV } gamma rays in a work day. The relative biological effectiveness (RBE) for gamma rays is 1.001.00 . What is the number of gamma-ray photons absorbed by the technician in a workday?

A) 1×1091 \times 10 ^ { 9 }
B) 1×1081 \times 10 ^ { 8 }
C) 3×1093 \times 10 ^ { 9 }
D) 3×1083 \times 10 ^ { 8 }
E) 3×10103 \times 10 ^ { 10 }
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17
Choose the one alternative that best completes the statement or answers the question.
In the fission reaction 235U+1n141Ba+92Kr+x1n235 \mathrm { U } + { } ^ { 1 } \mathrm { n } \rightarrow { } ^ { 141 } \mathrm { Ba } + 92 \mathrm { Kr } + x ^ { 1 } \mathrm { n } , what is the number xx of neutrons produced?

A) 0
B) 2
C) 3
D) 1
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18
Write the word or phrase that best completes each statement or answers the question.
Determine the missing product XX in the following nuclear reaction: 713 N+{ } _ { 7 } ^ { 13 } \mathrm {~N} + neutron X+\rightarrow \mathrm { X } + alpha particle
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19
Choose the one alternative that best completes the statement or answers the question.
In the nuclear reaction 816O+24HeX+1019Ne{ } _ { 8 } ^ { 16 } \mathrm { O } + { } _ { 2 } ^ { 4 } \mathrm { He } \rightarrow \mathrm { X } + { } _ { 10 } ^ { 19 } \mathrm { Ne } , what is X\mathrm { X } ?

A) alpha particle
B) 3H3 \mathrm { H }
C) neutron
D) 2H2 \mathrm { H }
E) proton
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20
Choose the one alternative that best completes the statement or answers the question.
The main fuel for producing energy in the center of the sun is

A) uranium.
B) oxygen.
C) hydrogen.
D) any radioactive material.
E) helium.
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21
Choose the one alternative that best completes the statement or answers the question.
Consider the nuclear reaction 714 N+24He817O+11H{ } _ { 7 } ^ { 14 } \mathrm {~N} + { } _ { 2 } ^ { 4 } \mathrm { He } \rightarrow { } _ { 8 } ^ { 17 } \mathrm { O } + { } _ { 1 } ^ { 1 } \mathrm { H } . The known atomic masses are 714 N:14.003074u{ } _ { 7 } ^ { 14 } \mathrm {~N} : \quad 14.003074 \mathrm { u }
24He:4.002603u{ } _ { 2 } ^ { 4 } \mathrm { He } : \quad 4.002603 \mathrm { u }
11H:1.007825u{ } _ { 1 } ^ { 1 } \mathrm { H } : \quad 1.007825 \mathrm { u }
817O:16.999131u{ } _ { 8 } ^ { 17 } \mathrm { O } : \quad 16.999131 \mathrm { u }
What is the Q-value (or reaction energy) of this reaction? (1u=931.5MeV/c2)\left( 1 \mathrm { u } = 931.5 \mathrm { MeV } / c ^ { 2 } \right)

A) 6.725MeV- 6.725 \mathrm { MeV }
B) 2.020MeV- 2.020 \mathrm { MeV }
C) 9.055MeV- 9.055 \mathrm { MeV }
D) 1.191MeV- 1.191 \mathrm { MeV }
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22
Choose the one alternative that best completes the statement or answers the question.
When 235U undergoes fission, the average energy per fission event is 200MeV200 \mathrm { MeV } . How much energy is released in the total fission of 2.0 g2.0 \mathrm {~g} of 235U235 \mathrm { U } ? (1eV=1.60×1019 J,mneutron mproton =1.67×\left( 1 \mathrm { eV } = 1.60 \times 10 ^ { - 19 } \mathrm {~J} , m _ { \text {neutron } } \approx m _ { \text {proton } } = 1.67 \times \right. 10-27 kg)

A) 3.9×1010 J3.9 \times 10 ^ { 10 } \mathrm {~J}
B) 1.6×1011 J1.6 \times 10 ^ { 11 } \mathrm {~J}
C) 1.6×105 J1.6 \times 10 ^ { 5 } \mathrm {~J}
D) 3.9×1013 J3.9 \times 10 ^ { 13 } \mathrm {~J}
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23
Choose the one alternative that best completes the statement or answers the question.
If a 2.0-MeV neutron released in a fission reaction loses half its kinetic energy in each moderator collision, how many collisions are needed to reduce its kinetic energy to 1/25eV1 / 25 \mathrm { eV } ?

A) 30
B) 4
C) 26
D) 18
E) 6
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24
Choose the one alternative that best completes the statement or answers the question.
Consider the nuclear reaction 714 N+24He817O+11H{ } _ { 7 } ^ { 14 } \mathrm {~N} + { } _ { 2 } ^ { 4 } \mathrm { He } \rightarrow { } _ { 8 } ^ { 17 } \mathrm { O } + { } _ { 1 } ^ { 1 } \mathrm { H } . The known atomic masses are 714 N:14.003074u{ } _ { 7 } ^ { 14 } \mathrm {~N} : \quad 14.003074 \mathrm { u }
24He:4.002603u{ } _ { 2 } ^ { 4 } \mathrm { He } : \quad 4.002603 \mathrm { u }
11H:1.007825u{ } _ { 1 } ^ { 1 } \mathrm { H } : \quad 1.007825 \mathrm { u }
817O:16.999131u{ } _ { 8 } ^ { 17 } \mathrm { O } : \quad 16.999131 \mathrm { u }
What is the QQ -value (or reaction energy) of this reaction? (1u=931.5MeV/c2)\left( 1 \mathrm { u } = 931.5 \mathrm { MeV } / \mathrm { c } ^ { 2 } \right)

A) 1.191MeV1.191 \mathrm { MeV }
B) 1.279×103MeV- 1.279 \times 10 ^ { - 3 } \mathrm { MeV }
C) 1.279×103MeV1.279 \times 10 ^ { - 3 } \mathrm { MeV }
D) 1.191MeV- 1.191 \mathrm { MeV }
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25
Choose the one alternative that best completes the statement or answers the question.
Choose the one alternative that best completes the statement or answers the question.
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26
Write the word or phrase that best completes each statement or answers the question.
Consider the fusion reaction:
12H+12H+12H24He+11H+01n{ } _ { 1 } ^ { 2 } \mathrm { H } + { } _ { 1 } ^ { 2 } \mathrm { H } + { } _ { 1 } ^ { 2 } \mathrm { H } \rightarrow { } _ { 2 } ^ { 4 } \mathrm { He } + { } _ { 1 } ^ { 1 } \mathrm { H } + { } _ { 0 } ^ { 1 } \mathrm { n }
The know atomic masses are
12H:2.01410u{ } _ { 1 } ^ { 2 } \mathrm { H } : \quad 2.01410 \mathrm { u }
24He:4.00260u{ } _ { 2 } ^ { 4 } \mathrm { He } : \quad 4.00260 \mathrm { u }
11H:1.00783u{ } _ { 1 } ^ { 1 } \mathrm { H } : \quad 1.00783 \mathrm { u }
01n:1.008665u{ } _ { 0 } ^ { 1 } \mathrm { n } : \quad 1.008665 \mathrm { u }
where 1u=1.6605×1027 kg1 \mathrm { u } = 1.6605 \times 10 ^{- 27} \mathrm {~kg} . What mass of deuterium fuel, 12H{ } _ { 1 } ^ { 2 } \mathrm { H } , is used up in producing 5.6×1015 J5.6 \times 10^{15} \mathrm {~J} of energy by this reaction?
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27
Choose the one alternative that best completes the statement or answers the question.
Two deuterium nuclei, 12H{ } _ { 1 } ^ { 2 } \mathrm { H } , fuse to produce a tritium nucleus, 13H{ } _ { 1 } ^ { 3 } \mathrm { H } , plus an ordinary hydrogen nucleus, 11H{ } _ { 1 } ^ { 1 } \mathrm { H } . A neutral deuterium atom has a mass of 2.014102u2.014102 \mathrm { u } ; a neutral tritium atom has a mass of 3.016050u3.016050 \mathrm { u } ; a neutral hydrogen atom has a mass of 1.007825u1.007825 \mathrm { u } ; a neutron has a mass of 1.008665u1.008665 \mathrm { u } ; and a proton has a mass of 1.007277u1.007277 \mathrm { u } . How much energy is released in this fusion process? (1 u = 931.5 MeV/ /c2/ c ^ { 2 } )

A) 6.58MeV6.58 \mathrm { MeV }
B) 3.53MeV3.53 \mathrm { MeV }
C) 3.03MeV3.03 \mathrm { MeV }
D) 4.53MeV4.53 \mathrm { MeV }
E) 4.03MeV4.03 \mathrm { MeV }
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28
Choose the one alternative that best completes the statement or answers the question.
An excited 92236U{ } _ { 92 } ^ { 236 } \mathrm { U } ^ { * } nucleus undergoes fission into two fragments as follows:
92236U56144Ba+3692Kr{ } _ { 92 } ^ { 236 } \mathrm { U } * \rightarrow { } _ { 56 } ^ { 144 } \mathrm { Ba } + { } _ { 36 } ^ { 92 } \mathrm { Kr }
The following atomic masses are known:
3692Kr:91.926270u{ } _ { 36 } ^ { 92 } \mathrm { Kr } : \quad 91.926270 \mathrm { u }
56144Ba:143.922845u{ } _ { 56 } ^ { 144 } \mathrm { Ba } : \quad 143.922845 \mathrm { u }
92236U:236.045563u{ } _ { 92 } ^ { 236 } \mathrm { U } ^ { * } : \quad 236.045563 \mathrm { u }
What is the reaction energy released during this fission reaction? (1u=931.5MeV/c2)\left( 1 \mathrm { u } = 931.5 \mathrm { MeV } / \mathrm { c } ^ { 2 } \right)

A) 190MeV190 \mathrm { MeV }
B) 150MeV150 \mathrm { MeV }
C) 170MeV170 \mathrm { MeV }
D) 160MeV160 \mathrm { MeV }
E) 180MeV180 \mathrm { MeV }
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29
Choose the one alternative that best completes the statement or answers the question.
An electron and a positron, both essentially at rest, annihilate each other, emitting two identical photons in the process. What is the wavelength of these photons? The mass of an electron or positron is 9.11×1031 kg9.11 \times 10 ^ { - 31 } \mathrm {~kg} . (h=6.626×1034 Js,c=3.00×108 m/s)\left( h = 6.626 \times 10 ^ { - 34 } \mathrm {~J} \cdot \mathrm { s } , c = 3.00 \times 10 ^ { 8 } \mathrm {~m} / \mathrm { s } \right)

A) 3.46pm3.46 \mathrm { pm }
B) 1.21×1012pm1.21 \times 10 ^ { - 12 } \mathrm { pm }
C) 3.07pm3.07 \mathrm { pm }
D) 2.42pm2.42 \mathrm { pm }
E) 1.73pm1.73 \mathrm { pm }
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30
Choose the one alternative that best completes the statement or answers the question.
Consider the nuclear reaction: 7Li+1p4He+4He7 \mathrm { Li } + 1 \mathrm { p } \rightarrow 4 \mathrm { He } + 4 \mathrm { He } . The known atomic masses are 7 Li: 7.016005u\quad 7.016005 \mathrm { u }
24He:4.002603u{ } _ { 2 } ^ { 4 } \mathrm { He } : \quad 4.002603 \mathrm { u }
1p: 1.007825u\quad 1.007825 \mathrm { u }
What is the QQ -value (or reaction energy) of this reaction? (1u=931.5MeV/c2)\left( 1 \mathrm { u } = 931.5 \mathrm { MeV } / \mathrm { c } ^ { 2 } \right)

A) 13.57MeV13.57 \mathrm { MeV }
B) 17.53MeV17.53 \mathrm { MeV }
C) 15.37MeV15.37 \mathrm { MeV }
D) 17.35MeV17.35 \mathrm { MeV }
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31
Choose the one alternative that best completes the statement or answers the question.
Consider the nuclear reaction 13H+13H24He+201n{ } _ { 1 } ^ { 3 } \mathrm { H } + { } _ { 1 } ^ { 3 } \mathrm { H } \rightarrow { } _ { 2 } ^ { 4 } \mathrm { He } + 2 { } _ { 0 } ^ { 1 } \mathrm { n } . The known atomic masses are
24He:4.002603u{ } _ { 2 } ^ { 4 } \mathrm { He } : \quad 4.002603 \mathrm { u }
13H:3.016049u{ } _ { 1 } ^ { 3 } \mathrm { H } : \quad 3.016049 \mathrm { u }
01n:1.008665u{ } _ { 0 } ^ { 1 } \mathrm { n } : \quad 1.008665 \mathrm { u }
What is the energy released (positive) or absorbed (negative) in this nuclear reaction? (1u=931.5( 1 \mathrm { u } = 931.5 MeV/c2\mathrm { MeV } / \mathrm { c } ^ { 2 } )

A) 0.0122MeV- 0.0122 \mathrm { MeV }
B) 11.3MeV11.3 \mathrm { MeV }
C) 11.3MeV- 11.3 \mathrm { MeV }
D) 0.0122MeV0.0122 \mathrm { MeV }
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32
Choose the one alternative that best completes the statement or answers the question.
When a neutron collides with a uranium-235 nucleus it can induce a variety of fission reactions.
One such reaction is
92235U+01n54140Xe+3894Sr+201n{ } _ { 92 } ^ { 235 } \mathrm { U } + { } _ { 0 } ^ { 1 } \mathrm { n } \rightarrow { } _ { 54 } ^ { 140 } \mathrm { Xe } + { } _ { 38 } ^ { 94 } \mathrm { Sr } + 2 { } _ { 0 } ^ { 1 } \mathrm { n }
The following mass values are known:
54140 Xe: 139.921620u3894Sr:93.915367u92235U:235.043924u01n:1.008665u\begin{array} { l l } { } _ { 54 } ^ { 140 } \text { Xe: } & 139.921620 \mathrm { u } \\{ } _ { 38 } ^ { 94 } \mathrm { Sr } : & 93.915367 \mathrm { u } \\{ } _ { 92 } ^ { 235 } \mathrm { U } : & 235.043924 \mathrm { u } \\{ } _ { 0 } ^ { 1 } \mathrm { n } : & 1.008665 \mathrm { u }\end{array}
What mass of uranium is needed to produce a 10-kiloton yield? (1u=931.5MeV/c2=1.66054×\left( 1 \mathrm { u } = 931.5 \mathrm { MeV } / c ^ { 2 } = 1.66054 \times \right. 1027 kg10 ^ { - 27 } \mathrm {~kg} , 1-kiloton yield =5.0×1012 J= 5.0 \times 10 ^ { 12 } \mathrm {~J} )

A) 1.10 kg1.10 \mathrm {~kg}
B) 0.66 kg0.66 \mathrm {~kg}
C) 3.85 kg3.85 \mathrm {~kg}
D) 6.58 kg6.58 \mathrm {~kg}
E) 0.57 kg0.57 \mathrm {~kg}
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33
Write the word or phrase that best completes each statement or answers the question.
A hypothetical particle has a mass of 510MeV/c2510 \mathrm { MeV } / \mathrm { c } ^ { 2 } . If such a particle at rest decays into two gamma-ray photons, what is the wavelength of each photon? (1eV=1.60×1019 J,c=\left( 1 \mathrm { eV } = 1.60 \times 10 ^ { - 19 } \mathrm {~J} , c = \right. 3.00×108 m/s,h=6.626×1034 Js)\left. 3.00 \times 10 ^ { 8 } \mathrm {~m} / \mathrm { s } , h = 6.626 \times 10 ^ { - 34 } \mathrm {~J} \cdot \mathrm { s } \right)
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34
Write the word or phrase that best completes each statement or answers the question.
If a Σ\Sigma ^ { - } particle at rest decays into a neutron and a π\pi ^ { - } , what is the total kinetic energy of the decay products? The masses of Σ\Sigma ^ { - } , neutron, and π\pi ^ { - } are 1197MeV/c2,940MeV/c21197 \mathrm { MeV } / c ^ { 2 } , 940 \mathrm { MeV } / c ^ { 2 } , and 140MeV/c2140 \mathrm { MeV } / c ^ { 2 } , respectively.
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35
Choose the one alternative that best completes the statement or answers the question.
A nuclear explosion results in a mass decrease of 2.10 g2.10 \mathrm {~g} . How much energy is released during this explosion? (c=3.00×108 m/s)\left( c = 3.00 \times 10 ^ { 8 } \mathrm {~m} / \mathrm { s } \right)

A) 1.89×1013 J1.89 \times 10 ^ { 13 } \mathrm {~J}
B) 2.25×1012 J2.25 \times 10 ^ { 12 } \mathrm {~J}
C) 6.30×105 J6.30 \times 10 ^ { 5 } \mathrm {~J}
D) 1.89×1014 J1.89 \times 10 ^ { 14 } \mathrm {~J}
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36
Choose the one alternative that best completes the statement or answers the question.
When a neutron collides with a uranium-235 nucleus it can induce a variety of fission reactions.
One such reaction is
92235U+01n54140Xe+3894Sr+201n{ } _ { 92 } ^ { 235 } U + { } _ { 0 } ^ { 1 } n \rightarrow { } _ { 54 } ^ { 140 } \mathrm { Xe } + { } _ { 38 } ^ { 94 } \mathrm { Sr } + 2 { } _ { 0 } ^ { 1 } \mathrm { n }
The following mass values are known:
54140{ } _ { 54 } ^ { 140 } Xe: 139.921620u\quad 139.921620 \mathrm { u }
3894Sr:93.915367u{ } _ { 38 } ^ { 94 } \mathrm { Sr } : \quad 93.915367 \mathrm { u }
92235U:235.043924u{ } _ { 92 } ^ { 235 } \mathrm { U } : \quad 235.043924 \mathrm { u }
01n:1.008665u{ } _ { 0 } ^ { 1 } \mathrm { n } : \quad 1.008665 \mathrm { u }
How much energy is released in this reaction? (1u=931.5MeV/c2)\left( 1 \mathrm { u } = 931.5 \mathrm { MeV } / \mathrm { c } ^ { 2 } \right)

A) 98.6MeV98.6 \mathrm { MeV }
B) 202MeV202 \mathrm { MeV }
C) 65.7MeV65.7 \mathrm { MeV }
D) 185MeV185 \mathrm { MeV }
E) 32.6MeV32.6 \mathrm { MeV }
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