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Deck 30: Nuclear Physics

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Question
The mass number of an atom is equal to the number of what particles in the nucleus?

A)protons
B)neutrons
C)nucleons
D)electrons
E)positrons.
Use Space or
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to flip the card.
Question
In massive stars, three helium nuclei fuse together, forming a carbon nucleus, and this reaction heats the core of the star. The net mass of the three helium nuclei must therefore be

A)higher than that of the carbon nucleus.
B)less than that of the carbon nucleus.
C)the same as that of the carbon nucleus because mass is always conserved.
D)the same as that of the carbon nucleus because energy is always conserved.
Question
The two strongest forces that act between protons in a nucleus are

A)the weak nuclear and electromagnetic forces.
B)the weak nuclear and the gravitational forces.
C)the electrostatic and the gravitational forces.
D)the strong nuclear and the electrostatic forces.
Question
A stable nucleus contains many protons very close to each other, all positively charged. Why do the protons not fly apart due to mutual Coulomb repulsion?

A)An attractive nuclear force in the nucleus counteracts the effect of the Coulomb forces.
B)There are an equal number of electrons in the nucleus which neutralize the protons.
C)The neutrons in the nucleus shield the protons from each other.
D)The Coulomb force does not operate within nuclei.
E)The gravity of the protons and neutrons overcomes their repulsion at such close distances.
Question
Write the standard nuclear notation for the following nuclei: hydrogen-2, sulfur-33, and lead-207.
Question
The primary reason that very large nuclei are unstable is due to

A)the cumulative repulsive force of the protons.
B)the cumulative attractive force between the protons and the orbiting electrons.
C)the repulsive force between the neutrons and the protons.
D)the extreme weakness of the gravitational attraction of the protons.
Question
The atomic number and mass number for calcium-39 are 20 and 39, respectively. How many neutrons are in one atom?

A)1
B)19
C)20
D)39
E)59
Question
Which of the following statements is not true of the strong nuclear force?

A)The nuclear force has a short range, of the order of nuclear dimensions.
B)For two protons that are very close together, the nuclear force and the electric force have about the same magnitudes.
C)The nuclear force does not depend on charge.
D)A nucleon in a large nucleus interacts via the nuclear force only with nearby nucleons, not with ones far away in the nucleus.
E)The nuclear force affects both neutrons and protons.
Question
Atomic nuclei that are all isotopes of an element all have the same

A)number of nucleons.
B)mass.
C)number of protons.
D)number of neutrons.
Question
In a 9341\begin{array} { l } 93 \\41\end{array} Nb nucleus, how many protons, neutrons, and electrons are found there?

A)41, 52, 93.
B)41, 52, 41.
C)52, 41, 41.
D)41, 52, 0.
E)93, 41, 93.
Question
The symbol for a certain isotope of radium is 22688\begin{array} { c } 226 \\88\end{array} Ra. How many nucleons are there in the nucleus of this isotope?

A)88
B)138
C)214
D)226
E)314
Question
The symbol for a certain isotope of polonium is 21484\begin{array} { c } 214 \\84\end{array} Po. How many neutrons are there in the nucleus of this isotope?

A)84
B)130
C)214
D)298
E)314
Question
The atomic number of an atom is equal to the number of what particles in the nucleus?

A)protons
B)neutrons
C)nucleons
D)electrons
E)positrons.
Question
Name the first three isotopes of hydrogen, write their symbols in standard notation, and indicate which one is the most common and which one is the most unstable.
Question
All nuclei of a given element have the same number of

A)neutrons.
B)protons.
C)nucleons.
D)protons + neutrons.
Question
The main reason that there is a limit to the size of a stable nucleus is

A)the limited range of the gravitational force.
B)the short range nature of the strong nuclear force.
C)the weakness of the gravitational force.
D)the weakness of the electrostatic force.
Question
An yttrium isotope has 39 protons and 50 neutrons in its nucleus. Which one of the following symbols accurately represents this isotope?

A) 3989\begin{array} { l } 39 \\89\end{array} Y
B) 8950\begin{array} { l } 89 \\50\end{array} Y
C) 8939\begin{array} { l } 89 \\39\end{array} Y
D) 5039\begin{array} { l } 50 \\39\end{array} Y
E) 3950\begin{array} { l } 39 \\50\end{array} Y
Question
What is true of an element of atomic number 15 that has an isotope of mass number 32? (There could be more than one correct choice.)

A)the number of protons in the nucleus is 15.
B)the number of neutrons in the nucleus is 15.
C)the number of protons in the nucleus is 32.
D)the number of nucleons in the nucleus is 47.
E)the number of neutrons in the nucleus is 17.
Question
The symbol for a certain isotope of strontium is 9038\begin{array} { l } 90 \\38\end{array} Sr. What is the mass number of this isotope?

A)38
B)52
C)88
D)90
E)128
Question
The atomic mass unit is defined as

A)the mass of a proton.
B)the mass of an electron.
C)the mass of a hydrogen-1 atom.
D)one twelfth the mass of a carbon-12 atom.
E)the mass of a carbon-12 nucleus.
Question
What are the mass number, the atomic number, and neutron number for each of the following particles?
(a)proton
(b)neutron
(c)alpha particle
Question
A fusion reaction releases energy because the binding energy of the resulting nucleus

A)is greater than the binding energy of the original nuclei.
B)is equal to the binding energy of the original nuclei.
C)is less than the binding energy of the original nuclei.
D)is released in the process.
E)is absorbed in the process.
Question
When a β+ particle is emitted from an unstable nucleus, the atomic number of the nucleus

A)increases by 1.
B)decreases by 1.
C)increases by 2.
D)decreases by 2.
E)does not change.
Question
When a β- particle is emitted from an unstable nucleus, the atomic mass number of the nucleus

A)increases by 1.
B)decreases by 1.
C)increases by 2.
D)does not change.
Question
The nuclei of 42\begin{array} { l } 4 \\2\end{array} He are also known as

A) particles.
B)particles
C) rays.
D)x-rays.
E)positrons
Question
A β- particle is also known as

A)an electron.
B)a positron.
C)a helium nucleus.
D)a high-energy photon.
Question
The binding energy per nucleon of a nucleus

A)increases steadily as we go to heavier elements.
B)decreases steadily as we go to heavier elements.
C)is approximately constant throughout the periodic table, except for very light nuclei.
D)has a maximum near iron in the periodic table and decreases after that for heavier elements.
E)has a minimum near iron in the periodic table and increases after that for heavier elements.
Question
A gamma ray is also known as

A)an electron.
B)a positron.
C)a helium nucleus.
D)a high-energy photon.
Question
In positron decay, the number of protons in the nucleus is

A)decreased by 1.
B)decreased by 2.
C)increased by 1.
D)increased by 2.
E)remains unchanged.
Question
What is the mass number of alpha particles?

A)1
B)2
C)3
D)4
E)6
Question
A β+ particle is also known as

A)an electron.
B)a positron.
C)a helium nucleus.
D)a high-energy photon.
Question
In beta-minus decay

A)a proton is emitted.
B)a neutron is emitted.
C)an electron is emitted.
D)an electron decays into another particle.
E)a proton is transformed into a neutron.
Question
An α particle is also known as

A)an electron.
B)a positron.
C)a helium nucleus.
D)a high-energy photon.
Question
In β- decay, the number of protons in the nucleus is

A)decreased by 1.
B)decreased by 2.
C)increased by 1.
D)increased by 2.
E)remains unchanged.
Question
In β- decay, the number of neutrons in the nucleus is

A)decreased by 1.
B)decreased by 2.
C)increased by 1.
D)increased by 2.
E)remains unchanged.
Question
When a β- particle is emitted from an unstable nucleus, the atomic number of the nucleus

A)increases by 1.
B)decreases by 1.
C)increases by 2.
D)decreases by 2.
E)does not change.
Question
A radioactive isotope of atomic number Z emits an alpha particle, and the daughter nucleus then emits a beta-minus particle. What is the atomic number of the resulting nucleus?

A)Z -1
B)Z + 1
C)Z - 2
D)Z - 3
Question
What are the mass number A and the charge (in units of e)for each of the following particles or rays?
(a)beta-plus
(b)beta-minus
(c)gamma ray
Question
During β- decay

A)a neutron is transformed to a proton.
B)a proton is transformed to a neutron.
C)a neutron is ejected from the nucleus.
D)a proton is ejected from the nucleus.
E)the number of nucleons increases.
Question
During β+ decay

A)a neutron is transformed to a proton.
B)a proton is transformed to a neutron.
C)a neutron is ejected from the nucleus.
D)a proton is ejected from the nucleus.
E)the number of nucleons decreases.
Question
The chief hazard of radiation damage to living cells is

A)due to heating.
B)due to ionization.
C)due to the creation of chemical impurities.
D)the creation of new isotopes within the body.
E)the creation of radioactive material within the body.
Question
Suppose the half-life of an isotope is 2 days. You purchase 10 grams of the isotope, but it was produced in a laboratory 4 days before it was delivered to you. How much of this isotope will you have 3 days after it was delivered to you?

A)more than 2.5 grams but less than 5 grams
B)2.5 grams
C)more than 1.25 grams but less than 2.5 grams
D)1.25 grams
E)less than 1.25 grams
Question
A radioactive isotope of atomic number Z emits a beta-minus particle, and then the daughter nucleus emits a gamma ray. What is the atomic number of the resulting nucleus after both processes?

A)Z - 1
B)Z + 1
C)Z - 2
D)Z - 3
Question
When an unstable nucleus decays by emitting an alpha particle, the atomic number Z of the nucleus

A)increases by 4.
B)increases by 2.
C)decreases by 2.
D)decreases by 4.
E)remains unchanged.
Question
If the half-life of a material is 45 years, how much of it will be left after 100 years?

A)more than 1/2
B)less than 1/2 but more than 1/4
C)more than 1/4 but less than 1/2
D)less than 1/4 but more than 1/8
E)less than 1/8
Question
Polonium-216 decays to lead-212 by emitting what kind of nuclear radiation?

A)alpha
B)beta-minus
C)beta-plus
D)gamma
E)x-rays.
Question
Inside the nucleus, the strongest of the four fundamental forces is

A)the weak nuclear force.
B)the electromagnetic force.
C)the gravitational force.
D)the strong nuclear force.
Question
What happens to the half-life of a radioactive substance as we increase its temperature?

A)It does not change.
B)It increases.
C)It decreases at a constant rate.
D)It decreases at an exponential rate.
Question
What happens to the half-life of a radioactive substance as it decays?

A)It remains constant.
B)It increases.
C)It decreases at a constant rate.
D)It decreases at an exponential rate.
Question
Modern in-air nuclear bomb tests have created an extra high level of 14C in our atmosphere. If future archaeologists date samples from this era, without knowing of this testing, will their carbon-14 dates be too young, too old, or correct? If correct, why?

A)Too young.
B)Too old.
C)Correct, since 14C from bomb tests is different from that produced naturally.
D)Correct, because modern biological materials do not gather 14C from bomb tests.
Question
The half-life of cobalt-60 is 5.3 years, while that of strontium-90 is about 29 years. Suppose you have samples of both isotopes, and that they initially have the same activity (number of decays per second). What must be true of the numbers of cobalt-60 and strontium-90 nuclei in these samples?

A)There are more strontium-90 than cobalt-60 nuclei.
B)There are equal numbers of cobalt-60 and strontium-90 nuclei.
C)There are more cobalt-60 than strontium-90 nuclei.
D)It is not possible to compare numbers of nuclei without knowing the masses of the samples.
Question
The half-life of cobalt-60 is 5.3 years, while that of strontium-90 is about 29 years. Suppose you have samples of both isotopes, and that they initially contain equal numbers of atoms of these isotopes. How will the activities (number of decays per second)of the samples compare?

A)The activity of the cobalt-60 sample will be greater.
B)The activities cannot be compared without more information.
C)The activities will be equal.
D)The activity of the strontium-90 sample will be greater.
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)4 millirem
B)15 millirem
C)20 millirem
D)25 millirem
E)100 millirem
Question
Carbon-14 decays by β- emission. What nucleus is left after this decay?

A)carbon-13
B)carbon-14
C)carbon-15
D)nitrogen-14
E)nitrogen-15
Question
Two radioactive isotopes, X and Y, both decay to stable products. The half-life of X is about a day, while that of Y is about a week. Suppose a radioactive sample consists of a mixture of these two nuclides. If the mixture is such that the activities arising from X and Y are initially equal, then a few days later the activity of the sample will be due

A)predominantly to Y.
B)predominantly to X.
C)entirely to Y.
D)to X and Y equally.
Question
The atom 22387\begin{array} { c } 223 \\87\end{array} Fr decays to 22388\begin{array} { c } 223 \\88\end{array} Ra by emitting what kind of nuclear radiation?

A)alpha
B)beta-minus
C)beta-plus
D)gamma
E)x-rays.
Question
Inside the nucleus, the weakest of the four fundamental forces is

A)the weak nuclear force.
B)the electromagnetic force.
C)the gravitational force.
D)the strong nuclear force.
Question
A β- decay occurs in an unstable nucleus when

A)a proton is converted to an electron by the strong force.
B)a proton is converted to a neutron by the strong force.
C)a neutron is converted to a proton by the weak force.
D)a neutron is converted to an alpha particle by the weak force.
E)a neutron is converted to a positron by the weak force.
Question
When an unstable nucleus decays by emitting an alpha particle, the atomic mass number A of the nucleus

A)increases by 4.
B)increases by 2.
C)decreases by 2.
D)decreases by 4.
E)remains unchanged.
Question
How many protons, neutrons, and nucleons are there in a carbon-14 nucleus?
Question
How many quarks are in a deuteron, 21\begin{array} { l } 2 \\1\end{array} H?

A)2
B)3
C)4
D)6
E)9
Question
How much energy is released when 0.60 ?g of 3H have decayed to 3He? The mass of 3He is 3.0160293 u, the mass of 3H is 3.0160492 u, 1 u = 931.5 MeV/c2, 1 eV = 1.60 × 10-19 J, and NA = 6.022 × 1023 molecules/mol.
Question
Leptons can interact by which of the following forces?

A)strong nuclear force, weak nuclear force, electromagnetic force, gravitation
B)strong nuclear force, weak nuclear force, electromagnetic force
C)weak nuclear force, electromagnetic force, gravitation
D)strong nuclear force, weak nuclear force
E)strong nuclear force, electromagnetic force, gravitation
Question
What combination of quarks produces a neutron and what are the electric charges on these quarks, expressed in terms of e?
Question
Elementary particles that experience the weak nuclear force but not the strong nuclear force are called

A)leptons.
B)hadrons.
C)mesons.
D)bosons.
E)baryons.
Question
How many quarks are in a tritium isotope, 31\begin{array} { l } 3 \\1\end{array} H?

A)2
B)3
C)4
D)6
E)9
Question
What combination of quarks produces a proton and what are the electric charges on these quarks, expressed in terms of e?
Question
The neutron is made up of which one of the following quark combinations (up, down, strange, charm, top, bottom)?

A)uud
B)ddu
C)udd
D)ttb
E)bst
Question
What are the possible charges of a quark (not an antiquark)?

A)-e, 0, e
B)-2/3 e, -1/3 e, +1/3 e, +2/3 e
C)-2/3 e, +1/3 e
D)-1/3 e, +2/3 e
E)-1/3 e, +1/3 e
Question
One of the fusion reactions that occurs in the sun is: 32\begin{array} { l } 3 \\2\end{array} He + 32\begin{array} { l } 3 \\2\end{array} He ? 42\begin{array} { l } 4 \\2\end{array} He + 11\begin{array} { l } 1 \\1\end{array} H + 11\begin{array} { l } 1 \\1\end{array} H The following atomic masses are known: 11\begin{array} { l } 1 \\1\end{array} H: 1.007825 u 32\begin{array} { l } 3 \\2\end{array} He: 3.016029 u 42\begin{array} { l } 4 \\2\end{array} He: 4.002603 u
What is the reaction energy released in this fusion reaction? (1 u = 931.5 MeV/c2)

A)11 MeV
B)13 MeV
C)15 MeV
D)17 MeV
E)19 MeV
Question
A summary of the nuclear reactions that power our sun is 4p → 4He + 2e-, with masses of 938.272 MeV/c2 for a proton, 3727.38 MeV/c2 for the helium nucleus, and 0.511 MeV/c2 for each electron. How much energy is released by each of these reactions?

A)24.69 MeV
B)28.3 MeV
C)2790.13 MeV
D)279.01 MeV
Question
Which of the following particles are not made up of quarks? (There could be more than one correct choice.)

A)alpha particle
B)electron
C)proton
D)positron
E)neutron
Question
Which of the following particles (or groups of particles)are made up of quarks?

A)protons, neutrons, and electrons
B)electrons and neutrinos
C)photons
D)protons and neutrons
E)All particles except for photons are made up of quarks.
Question
In the first nuclear reaction observed, physicists saw an alpha particle (Z = 2)interact with a nitrogen nucleus in air (Z = 7)to produce a proton. The energy of the alpha particle was 55MeV55 \mathrm { MeV } \text {, } enough to enable the nuclei to touch in spite of the Coulomb repulsion. What distance (in fm)between the centers of the alpha particle and the nitrogen was reached? This determines a limit on the radius of the nitrogen nucleus. (1 eV = 1.60 × 10-19 J, e = 1.60 × 10-19 C, 1/4??0 = 8.99 × 109 N ? m2/C2)

A) 0 fm
B) 0 fm.
C) ( 0 )fm
D)0 fm,
Question
The proton is made up of which one of the following quark combinations (up, down, strange, charm, top, bottom)?

A)uud
B)ddu
C)udd
D)ttb
E)bst
Question
The diameter of an atom is 1.4 × 10-10 m and the diameter of its nucleus is 1.0 × 10-14 m. What fraction of the atom's volume is occupied by its nucleus?

A)3.6 × 10-13
B)7.1 × 10-5
C)5.1 × 10-9
D)2.6 × 10-17
Question
A beryllium-8 nucleus at rest undergoes double alpha decay as follows: 84\begin{array} { l } 8 \\4\end{array} Be ? 42\begin{array} { l } 4 \\2\end{array} He + 42\begin{array} { l } 4 \\2\end{array} He The known atomic masses are: 42\begin{array} { l } 4 \\2\end{array} He: 4.002603 u 84\begin{array} { l } 8 \\4\end{array} Be: 8.005305 u
What is the kinetic energy of each departing alpha particle? (1 u = 931.5 MeV/c2)

A)46 keV
B)65 keV
C)92 keV
D)130 keV
E)180 keV
Question
In a head-on collision, an alpha particle (Z = 2)of energy 8.20MeV8.20 \mathrm { MeV } bounces straight back from a nucleus of charge 80.0e.80.0 \mathrm { e. } How close were the centers of the objects at closest approach? (1 eV = 1.60 × 10-19 J, e = 1.60 × 10-19 C, 1/4??0 = 8.99 × 109 N ? m2/C2)

A)2.81 × 10-14 m
B)3.39 × 10-12 m
C)6.56 × 10-15 m
D)2.17 × 10-14 m
Question
The radius R of a nucleus of mass number A is given by R = R0 A1/3, where R0 = 1.2 × 10-15 m, calculate the density of a nucleus that has contains 57 protons and 82 neutrons. The mass of a nucleon (proton or neutron)is 1.67 × 10-27 kg.
Question
Which of the following particles are leptons? (There may be more than one correct choice.)

A)protons
B)neutrons
C)electrons
D)photons
E)quarks
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Deck 30: Nuclear Physics
1
The mass number of an atom is equal to the number of what particles in the nucleus?

A)protons
B)neutrons
C)nucleons
D)electrons
E)positrons.
C
2
In massive stars, three helium nuclei fuse together, forming a carbon nucleus, and this reaction heats the core of the star. The net mass of the three helium nuclei must therefore be

A)higher than that of the carbon nucleus.
B)less than that of the carbon nucleus.
C)the same as that of the carbon nucleus because mass is always conserved.
D)the same as that of the carbon nucleus because energy is always conserved.
A
3
The two strongest forces that act between protons in a nucleus are

A)the weak nuclear and electromagnetic forces.
B)the weak nuclear and the gravitational forces.
C)the electrostatic and the gravitational forces.
D)the strong nuclear and the electrostatic forces.
D
4
A stable nucleus contains many protons very close to each other, all positively charged. Why do the protons not fly apart due to mutual Coulomb repulsion?

A)An attractive nuclear force in the nucleus counteracts the effect of the Coulomb forces.
B)There are an equal number of electrons in the nucleus which neutralize the protons.
C)The neutrons in the nucleus shield the protons from each other.
D)The Coulomb force does not operate within nuclei.
E)The gravity of the protons and neutrons overcomes their repulsion at such close distances.
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5
Write the standard nuclear notation for the following nuclei: hydrogen-2, sulfur-33, and lead-207.
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6
The primary reason that very large nuclei are unstable is due to

A)the cumulative repulsive force of the protons.
B)the cumulative attractive force between the protons and the orbiting electrons.
C)the repulsive force between the neutrons and the protons.
D)the extreme weakness of the gravitational attraction of the protons.
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7
The atomic number and mass number for calcium-39 are 20 and 39, respectively. How many neutrons are in one atom?

A)1
B)19
C)20
D)39
E)59
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8
Which of the following statements is not true of the strong nuclear force?

A)The nuclear force has a short range, of the order of nuclear dimensions.
B)For two protons that are very close together, the nuclear force and the electric force have about the same magnitudes.
C)The nuclear force does not depend on charge.
D)A nucleon in a large nucleus interacts via the nuclear force only with nearby nucleons, not with ones far away in the nucleus.
E)The nuclear force affects both neutrons and protons.
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9
Atomic nuclei that are all isotopes of an element all have the same

A)number of nucleons.
B)mass.
C)number of protons.
D)number of neutrons.
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10
In a 9341\begin{array} { l } 93 \\41\end{array} Nb nucleus, how many protons, neutrons, and electrons are found there?

A)41, 52, 93.
B)41, 52, 41.
C)52, 41, 41.
D)41, 52, 0.
E)93, 41, 93.
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11
The symbol for a certain isotope of radium is 22688\begin{array} { c } 226 \\88\end{array} Ra. How many nucleons are there in the nucleus of this isotope?

A)88
B)138
C)214
D)226
E)314
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12
The symbol for a certain isotope of polonium is 21484\begin{array} { c } 214 \\84\end{array} Po. How many neutrons are there in the nucleus of this isotope?

A)84
B)130
C)214
D)298
E)314
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13
The atomic number of an atom is equal to the number of what particles in the nucleus?

A)protons
B)neutrons
C)nucleons
D)electrons
E)positrons.
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14
Name the first three isotopes of hydrogen, write their symbols in standard notation, and indicate which one is the most common and which one is the most unstable.
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15
All nuclei of a given element have the same number of

A)neutrons.
B)protons.
C)nucleons.
D)protons + neutrons.
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16
The main reason that there is a limit to the size of a stable nucleus is

A)the limited range of the gravitational force.
B)the short range nature of the strong nuclear force.
C)the weakness of the gravitational force.
D)the weakness of the electrostatic force.
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17
An yttrium isotope has 39 protons and 50 neutrons in its nucleus. Which one of the following symbols accurately represents this isotope?

A) 3989\begin{array} { l } 39 \\89\end{array} Y
B) 8950\begin{array} { l } 89 \\50\end{array} Y
C) 8939\begin{array} { l } 89 \\39\end{array} Y
D) 5039\begin{array} { l } 50 \\39\end{array} Y
E) 3950\begin{array} { l } 39 \\50\end{array} Y
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18
What is true of an element of atomic number 15 that has an isotope of mass number 32? (There could be more than one correct choice.)

A)the number of protons in the nucleus is 15.
B)the number of neutrons in the nucleus is 15.
C)the number of protons in the nucleus is 32.
D)the number of nucleons in the nucleus is 47.
E)the number of neutrons in the nucleus is 17.
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19
The symbol for a certain isotope of strontium is 9038\begin{array} { l } 90 \\38\end{array} Sr. What is the mass number of this isotope?

A)38
B)52
C)88
D)90
E)128
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20
The atomic mass unit is defined as

A)the mass of a proton.
B)the mass of an electron.
C)the mass of a hydrogen-1 atom.
D)one twelfth the mass of a carbon-12 atom.
E)the mass of a carbon-12 nucleus.
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21
What are the mass number, the atomic number, and neutron number for each of the following particles?
(a)proton
(b)neutron
(c)alpha particle
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22
A fusion reaction releases energy because the binding energy of the resulting nucleus

A)is greater than the binding energy of the original nuclei.
B)is equal to the binding energy of the original nuclei.
C)is less than the binding energy of the original nuclei.
D)is released in the process.
E)is absorbed in the process.
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23
When a β+ particle is emitted from an unstable nucleus, the atomic number of the nucleus

A)increases by 1.
B)decreases by 1.
C)increases by 2.
D)decreases by 2.
E)does not change.
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24
When a β- particle is emitted from an unstable nucleus, the atomic mass number of the nucleus

A)increases by 1.
B)decreases by 1.
C)increases by 2.
D)does not change.
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25
The nuclei of 42\begin{array} { l } 4 \\2\end{array} He are also known as

A) particles.
B)particles
C) rays.
D)x-rays.
E)positrons
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26
A β- particle is also known as

A)an electron.
B)a positron.
C)a helium nucleus.
D)a high-energy photon.
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27
The binding energy per nucleon of a nucleus

A)increases steadily as we go to heavier elements.
B)decreases steadily as we go to heavier elements.
C)is approximately constant throughout the periodic table, except for very light nuclei.
D)has a maximum near iron in the periodic table and decreases after that for heavier elements.
E)has a minimum near iron in the periodic table and increases after that for heavier elements.
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28
A gamma ray is also known as

A)an electron.
B)a positron.
C)a helium nucleus.
D)a high-energy photon.
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29
In positron decay, the number of protons in the nucleus is

A)decreased by 1.
B)decreased by 2.
C)increased by 1.
D)increased by 2.
E)remains unchanged.
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30
What is the mass number of alpha particles?

A)1
B)2
C)3
D)4
E)6
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31
A β+ particle is also known as

A)an electron.
B)a positron.
C)a helium nucleus.
D)a high-energy photon.
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32
In beta-minus decay

A)a proton is emitted.
B)a neutron is emitted.
C)an electron is emitted.
D)an electron decays into another particle.
E)a proton is transformed into a neutron.
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33
An α particle is also known as

A)an electron.
B)a positron.
C)a helium nucleus.
D)a high-energy photon.
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34
In β- decay, the number of protons in the nucleus is

A)decreased by 1.
B)decreased by 2.
C)increased by 1.
D)increased by 2.
E)remains unchanged.
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35
In β- decay, the number of neutrons in the nucleus is

A)decreased by 1.
B)decreased by 2.
C)increased by 1.
D)increased by 2.
E)remains unchanged.
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36
When a β- particle is emitted from an unstable nucleus, the atomic number of the nucleus

A)increases by 1.
B)decreases by 1.
C)increases by 2.
D)decreases by 2.
E)does not change.
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37
A radioactive isotope of atomic number Z emits an alpha particle, and the daughter nucleus then emits a beta-minus particle. What is the atomic number of the resulting nucleus?

A)Z -1
B)Z + 1
C)Z - 2
D)Z - 3
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38
What are the mass number A and the charge (in units of e)for each of the following particles or rays?
(a)beta-plus
(b)beta-minus
(c)gamma ray
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39
During β- decay

A)a neutron is transformed to a proton.
B)a proton is transformed to a neutron.
C)a neutron is ejected from the nucleus.
D)a proton is ejected from the nucleus.
E)the number of nucleons increases.
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40
During β+ decay

A)a neutron is transformed to a proton.
B)a proton is transformed to a neutron.
C)a neutron is ejected from the nucleus.
D)a proton is ejected from the nucleus.
E)the number of nucleons decreases.
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41
The chief hazard of radiation damage to living cells is

A)due to heating.
B)due to ionization.
C)due to the creation of chemical impurities.
D)the creation of new isotopes within the body.
E)the creation of radioactive material within the body.
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42
Suppose the half-life of an isotope is 2 days. You purchase 10 grams of the isotope, but it was produced in a laboratory 4 days before it was delivered to you. How much of this isotope will you have 3 days after it was delivered to you?

A)more than 2.5 grams but less than 5 grams
B)2.5 grams
C)more than 1.25 grams but less than 2.5 grams
D)1.25 grams
E)less than 1.25 grams
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43
A radioactive isotope of atomic number Z emits a beta-minus particle, and then the daughter nucleus emits a gamma ray. What is the atomic number of the resulting nucleus after both processes?

A)Z - 1
B)Z + 1
C)Z - 2
D)Z - 3
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44
When an unstable nucleus decays by emitting an alpha particle, the atomic number Z of the nucleus

A)increases by 4.
B)increases by 2.
C)decreases by 2.
D)decreases by 4.
E)remains unchanged.
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45
If the half-life of a material is 45 years, how much of it will be left after 100 years?

A)more than 1/2
B)less than 1/2 but more than 1/4
C)more than 1/4 but less than 1/2
D)less than 1/4 but more than 1/8
E)less than 1/8
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46
Polonium-216 decays to lead-212 by emitting what kind of nuclear radiation?

A)alpha
B)beta-minus
C)beta-plus
D)gamma
E)x-rays.
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47
Inside the nucleus, the strongest of the four fundamental forces is

A)the weak nuclear force.
B)the electromagnetic force.
C)the gravitational force.
D)the strong nuclear force.
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48
What happens to the half-life of a radioactive substance as we increase its temperature?

A)It does not change.
B)It increases.
C)It decreases at a constant rate.
D)It decreases at an exponential rate.
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49
What happens to the half-life of a radioactive substance as it decays?

A)It remains constant.
B)It increases.
C)It decreases at a constant rate.
D)It decreases at an exponential rate.
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50
Modern in-air nuclear bomb tests have created an extra high level of 14C in our atmosphere. If future archaeologists date samples from this era, without knowing of this testing, will their carbon-14 dates be too young, too old, or correct? If correct, why?

A)Too young.
B)Too old.
C)Correct, since 14C from bomb tests is different from that produced naturally.
D)Correct, because modern biological materials do not gather 14C from bomb tests.
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51
The half-life of cobalt-60 is 5.3 years, while that of strontium-90 is about 29 years. Suppose you have samples of both isotopes, and that they initially have the same activity (number of decays per second). What must be true of the numbers of cobalt-60 and strontium-90 nuclei in these samples?

A)There are more strontium-90 than cobalt-60 nuclei.
B)There are equal numbers of cobalt-60 and strontium-90 nuclei.
C)There are more cobalt-60 than strontium-90 nuclei.
D)It is not possible to compare numbers of nuclei without knowing the masses of the samples.
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52
The half-life of cobalt-60 is 5.3 years, while that of strontium-90 is about 29 years. Suppose you have samples of both isotopes, and that they initially contain equal numbers of atoms of these isotopes. How will the activities (number of decays per second)of the samples compare?

A)The activity of the cobalt-60 sample will be greater.
B)The activities cannot be compared without more information.
C)The activities will be equal.
D)The activity of the strontium-90 sample will be greater.
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53
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)4 millirem
B)15 millirem
C)20 millirem
D)25 millirem
E)100 millirem
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54
Carbon-14 decays by β- emission. What nucleus is left after this decay?

A)carbon-13
B)carbon-14
C)carbon-15
D)nitrogen-14
E)nitrogen-15
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55
Two radioactive isotopes, X and Y, both decay to stable products. The half-life of X is about a day, while that of Y is about a week. Suppose a radioactive sample consists of a mixture of these two nuclides. If the mixture is such that the activities arising from X and Y are initially equal, then a few days later the activity of the sample will be due

A)predominantly to Y.
B)predominantly to X.
C)entirely to Y.
D)to X and Y equally.
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56
The atom 22387\begin{array} { c } 223 \\87\end{array} Fr decays to 22388\begin{array} { c } 223 \\88\end{array} Ra by emitting what kind of nuclear radiation?

A)alpha
B)beta-minus
C)beta-plus
D)gamma
E)x-rays.
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57
Inside the nucleus, the weakest of the four fundamental forces is

A)the weak nuclear force.
B)the electromagnetic force.
C)the gravitational force.
D)the strong nuclear force.
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58
A β- decay occurs in an unstable nucleus when

A)a proton is converted to an electron by the strong force.
B)a proton is converted to a neutron by the strong force.
C)a neutron is converted to a proton by the weak force.
D)a neutron is converted to an alpha particle by the weak force.
E)a neutron is converted to a positron by the weak force.
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59
When an unstable nucleus decays by emitting an alpha particle, the atomic mass number A of the nucleus

A)increases by 4.
B)increases by 2.
C)decreases by 2.
D)decreases by 4.
E)remains unchanged.
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60
How many protons, neutrons, and nucleons are there in a carbon-14 nucleus?
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61
How many quarks are in a deuteron, 21\begin{array} { l } 2 \\1\end{array} H?

A)2
B)3
C)4
D)6
E)9
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62
How much energy is released when 0.60 ?g of 3H have decayed to 3He? The mass of 3He is 3.0160293 u, the mass of 3H is 3.0160492 u, 1 u = 931.5 MeV/c2, 1 eV = 1.60 × 10-19 J, and NA = 6.022 × 1023 molecules/mol.
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63
Leptons can interact by which of the following forces?

A)strong nuclear force, weak nuclear force, electromagnetic force, gravitation
B)strong nuclear force, weak nuclear force, electromagnetic force
C)weak nuclear force, electromagnetic force, gravitation
D)strong nuclear force, weak nuclear force
E)strong nuclear force, electromagnetic force, gravitation
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64
What combination of quarks produces a neutron and what are the electric charges on these quarks, expressed in terms of e?
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65
Elementary particles that experience the weak nuclear force but not the strong nuclear force are called

A)leptons.
B)hadrons.
C)mesons.
D)bosons.
E)baryons.
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66
How many quarks are in a tritium isotope, 31\begin{array} { l } 3 \\1\end{array} H?

A)2
B)3
C)4
D)6
E)9
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67
What combination of quarks produces a proton and what are the electric charges on these quarks, expressed in terms of e?
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68
The neutron is made up of which one of the following quark combinations (up, down, strange, charm, top, bottom)?

A)uud
B)ddu
C)udd
D)ttb
E)bst
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69
What are the possible charges of a quark (not an antiquark)?

A)-e, 0, e
B)-2/3 e, -1/3 e, +1/3 e, +2/3 e
C)-2/3 e, +1/3 e
D)-1/3 e, +2/3 e
E)-1/3 e, +1/3 e
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70
One of the fusion reactions that occurs in the sun is: 32\begin{array} { l } 3 \\2\end{array} He + 32\begin{array} { l } 3 \\2\end{array} He ? 42\begin{array} { l } 4 \\2\end{array} He + 11\begin{array} { l } 1 \\1\end{array} H + 11\begin{array} { l } 1 \\1\end{array} H The following atomic masses are known: 11\begin{array} { l } 1 \\1\end{array} H: 1.007825 u 32\begin{array} { l } 3 \\2\end{array} He: 3.016029 u 42\begin{array} { l } 4 \\2\end{array} He: 4.002603 u
What is the reaction energy released in this fusion reaction? (1 u = 931.5 MeV/c2)

A)11 MeV
B)13 MeV
C)15 MeV
D)17 MeV
E)19 MeV
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71
A summary of the nuclear reactions that power our sun is 4p → 4He + 2e-, with masses of 938.272 MeV/c2 for a proton, 3727.38 MeV/c2 for the helium nucleus, and 0.511 MeV/c2 for each electron. How much energy is released by each of these reactions?

A)24.69 MeV
B)28.3 MeV
C)2790.13 MeV
D)279.01 MeV
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72
Which of the following particles are not made up of quarks? (There could be more than one correct choice.)

A)alpha particle
B)electron
C)proton
D)positron
E)neutron
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73
Which of the following particles (or groups of particles)are made up of quarks?

A)protons, neutrons, and electrons
B)electrons and neutrinos
C)photons
D)protons and neutrons
E)All particles except for photons are made up of quarks.
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74
In the first nuclear reaction observed, physicists saw an alpha particle (Z = 2)interact with a nitrogen nucleus in air (Z = 7)to produce a proton. The energy of the alpha particle was 55MeV55 \mathrm { MeV } \text {, } enough to enable the nuclei to touch in spite of the Coulomb repulsion. What distance (in fm)between the centers of the alpha particle and the nitrogen was reached? This determines a limit on the radius of the nitrogen nucleus. (1 eV = 1.60 × 10-19 J, e = 1.60 × 10-19 C, 1/4??0 = 8.99 × 109 N ? m2/C2)

A) 0 fm
B) 0 fm.
C) ( 0 )fm
D)0 fm,
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75
The proton is made up of which one of the following quark combinations (up, down, strange, charm, top, bottom)?

A)uud
B)ddu
C)udd
D)ttb
E)bst
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76
The diameter of an atom is 1.4 × 10-10 m and the diameter of its nucleus is 1.0 × 10-14 m. What fraction of the atom's volume is occupied by its nucleus?

A)3.6 × 10-13
B)7.1 × 10-5
C)5.1 × 10-9
D)2.6 × 10-17
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77
A beryllium-8 nucleus at rest undergoes double alpha decay as follows: 84\begin{array} { l } 8 \\4\end{array} Be ? 42\begin{array} { l } 4 \\2\end{array} He + 42\begin{array} { l } 4 \\2\end{array} He The known atomic masses are: 42\begin{array} { l } 4 \\2\end{array} He: 4.002603 u 84\begin{array} { l } 8 \\4\end{array} Be: 8.005305 u
What is the kinetic energy of each departing alpha particle? (1 u = 931.5 MeV/c2)

A)46 keV
B)65 keV
C)92 keV
D)130 keV
E)180 keV
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78
In a head-on collision, an alpha particle (Z = 2)of energy 8.20MeV8.20 \mathrm { MeV } bounces straight back from a nucleus of charge 80.0e.80.0 \mathrm { e. } How close were the centers of the objects at closest approach? (1 eV = 1.60 × 10-19 J, e = 1.60 × 10-19 C, 1/4??0 = 8.99 × 109 N ? m2/C2)

A)2.81 × 10-14 m
B)3.39 × 10-12 m
C)6.56 × 10-15 m
D)2.17 × 10-14 m
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79
The radius R of a nucleus of mass number A is given by R = R0 A1/3, where R0 = 1.2 × 10-15 m, calculate the density of a nucleus that has contains 57 protons and 82 neutrons. The mass of a nucleon (proton or neutron)is 1.67 × 10-27 kg.
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80
Which of the following particles are leptons? (There may be more than one correct choice.)

A)protons
B)neutrons
C)electrons
D)photons
E)quarks
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