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Deck 19: Nuclear Chemistry

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Question
Which of the following statements about electron capture is false?

A)The electron is used to convert a proton to a neutron.
B)The electron involved is most likely an outer shell valence electron.
C)In electron capture decay,the atomic number decreases by one.
D)In electron capture decay,the mass number remains unchanged.
Use Space or
up arrow
down arrow
to flip the card.
Question
The number of nucleons in a <strong>The number of nucleons in a U<sup>2+ </sup>nucleus<sup> </sup>is</strong> A)92. B)144. C)236. D)328. <div style=padding-top: 35px> U2+ nucleus is

A)92.
B)144.
C)236.
D)328.
Question
Which of the following statements about positrons is false?

A)The positron has same mass as an electron.
B)A positron is ejected from the nucleus during the conversion of a proton into a neutron.
C)A positron is a positive electron.
D)When positron emission occurs,the atomic number of the nucleus increases.
Question
Positron emission changes the atomic number of an element by

A)-2.
B)-1.
C)+1.
D)+2.
Question
The nuclear decay process that involves the particle having the greatest mass is ________ emission.

A)alpha
B)beta
C)gamma
D)positron
Question
Which reaction below represents <strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th <div style=padding-top: 35px> Th decay by alpha emission?

A) <strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th <div style=padding-top: 35px>
Th →
<strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th <div style=padding-top: 35px>
He +
<strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th <div style=padding-top: 35px>
Ra
B) <strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th <div style=padding-top: 35px>
Th →
<strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th <div style=padding-top: 35px>
He +
<strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th <div style=padding-top: 35px>
Ra
C) <strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th <div style=padding-top: 35px>
Th →
<strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th <div style=padding-top: 35px>
P +
<strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th <div style=padding-top: 35px>
Ac
D) <strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th <div style=padding-top: 35px>
Th →
<strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th <div style=padding-top: 35px>
N +
<strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th <div style=padding-top: 35px>
Th
Question
Which statement about nuclear reactions is true?

A)New elements are never produced in a nuclear reaction.
B)Nuclear reactions involve valence electrons.
C)The rate of a nuclear reaction is affected by catalysts.
D)Tremendous amounts of energy are involved in nuclear reactions.
Question
The number of nucleons in an atom or ion is the same as the

A)atomic number.
B)charge on the atom or ion.
C)mass number.
D)none of these
Question
In addition to a beta particle,what is the other product of beta decay of <strong>In addition to a beta particle,what is the other product of beta decay of I?</strong> A) Sb B) Te C) Xe D) Cs <div style=padding-top: 35px> I?

A) <strong>In addition to a beta particle,what is the other product of beta decay of I?</strong> A) Sb B) Te C) Xe D) Cs <div style=padding-top: 35px>
Sb
B) <strong>In addition to a beta particle,what is the other product of beta decay of I?</strong> A) Sb B) Te C) Xe D) Cs <div style=padding-top: 35px>
Te
C) <strong>In addition to a beta particle,what is the other product of beta decay of I?</strong> A) Sb B) Te C) Xe D) Cs <div style=padding-top: 35px>
Xe
D) <strong>In addition to a beta particle,what is the other product of beta decay of I?</strong> A) Sb B) Te C) Xe D) Cs <div style=padding-top: 35px>
Cs
Question
A beta particle is

A) <strong>A beta particle is</strong> A) E. B) E. C) P. D) He. <div style=padding-top: 35px>
E.
B) <strong>A beta particle is</strong> A) E. B) E. C) P. D) He. <div style=padding-top: 35px>
E.
C) <strong>A beta particle is</strong> A) E. B) E. C) P. D) He. <div style=padding-top: 35px>
P.
D) <strong>A beta particle is</strong> A) E. B) E. C) P. D) He. <div style=padding-top: 35px>
He.
Question
The nuclear transformation potassium-40 argon-40 + ? is classified as

A)alpha emission.
B)beta emission.
C)electron capture.
D)positron emission.
Question
Which reaction below represents <strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc <div style=padding-top: 35px> Ti decay by electron capture?

A) <strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc <div style=padding-top: 35px>
Ti +
<strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc <div style=padding-top: 35px>
E →
<strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc <div style=padding-top: 35px>
Ti
B) <strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc <div style=padding-top: 35px>
Ti +
<strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc <div style=padding-top: 35px>
E →
<strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc <div style=padding-top: 35px>
Ti
C) <strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc <div style=padding-top: 35px>
Ti +
<strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc <div style=padding-top: 35px>
E →
<strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc <div style=padding-top: 35px>
Ti
D) <strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc <div style=padding-top: 35px>
Ti +
<strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc <div style=padding-top: 35px>
E →
<strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc <div style=padding-top: 35px>
Sc
Question
Tritium, <strong>Tritium, H,is formed in the upper atmosphere when N captures a neutron and then decays.What is the other product of this reaction?</strong> A) C B) C C) B D) B <div style=padding-top: 35px> H,is formed in the upper atmosphere when <strong>Tritium, H,is formed in the upper atmosphere when N captures a neutron and then decays.What is the other product of this reaction?</strong> A) C B) C C) B D) B <div style=padding-top: 35px> N captures a neutron and then decays.What is the other product of this reaction?

A) <strong>Tritium, H,is formed in the upper atmosphere when N captures a neutron and then decays.What is the other product of this reaction?</strong> A) C B) C C) B D) B <div style=padding-top: 35px>
C
B) <strong>Tritium, H,is formed in the upper atmosphere when N captures a neutron and then decays.What is the other product of this reaction?</strong> A) C B) C C) B D) B <div style=padding-top: 35px>
C
C) <strong>Tritium, H,is formed in the upper atmosphere when N captures a neutron and then decays.What is the other product of this reaction?</strong> A) C B) C C) B D) B <div style=padding-top: 35px>
B
D) <strong>Tritium, H,is formed in the upper atmosphere when N captures a neutron and then decays.What is the other product of this reaction?</strong> A) C B) C C) B D) B <div style=padding-top: 35px>
B
Question
Which of the following statements is not correct when balancing a nuclear equation? I.The mass numbers must be conserved on both sides of the reaction arrow.
II.The ionic charges must be conserved on both sides of the reaction arrow.
III.The atomic numbers must be conserved on both sides of the reaction arrow.
IV.The elements must be the same on both sides of the reaction arrow.

A)II only
B)II and III
C)I and III
D)II and IV
Question
Beta decay of 24Na produces a beta particle and

A).20F.
B).23Na.
C).24Ne.
D).24Mg.
Question
An alpha particle is

A) <strong>An alpha particle is</strong> A) H<sup>+</sup>. B) H<sup>+</sup>. C) H<sup>+</sup>. D) He<sup>2+</sup>. <div style=padding-top: 35px>
H+.
B) <strong>An alpha particle is</strong> A) H<sup>+</sup>. B) H<sup>+</sup>. C) H<sup>+</sup>. D) He<sup>2+</sup>. <div style=padding-top: 35px>
H+.
C) <strong>An alpha particle is</strong> A) H<sup>+</sup>. B) H<sup>+</sup>. C) H<sup>+</sup>. D) He<sup>2+</sup>. <div style=padding-top: 35px>
H+.
D) <strong>An alpha particle is</strong> A) H<sup>+</sup>. B) H<sup>+</sup>. C) H<sup>+</sup>. D) He<sup>2+</sup>. <div style=padding-top: 35px>
He2+.
Question
Which of the following statements about gamma radiation is false?

A)It almost always accompanies alpha or beta emission.
B)It is a mechanism to release excess energy in the nucleus.
C)Gamma rays are high energy photons.
D)The mass number decreases by one with each gamma emitted.
Question
Which of the following decay processes give a product nuclide whose atomic number is one less than the starting nuclide?

A)alpha decay
B)beta decay and positron decay
C)gamma decay and beta decay
D)positron decay and electron capture
Question
Gamma radiation can be described as

A)a helium nucleus.
B)a negatively charged free electron.
C)high energy electromagnetic radiation.
D)a positively charged free electron.
Question
Which reaction below represents <strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O <div style=padding-top: 35px> O decay by positron emission?

A) <strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O <div style=padding-top: 35px>
O →
<strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O <div style=padding-top: 35px>
E +
<strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O <div style=padding-top: 35px>
Ra
B) <strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O <div style=padding-top: 35px>
O →
<strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O <div style=padding-top: 35px>
E +
<strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O <div style=padding-top: 35px>
N
C) <strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O <div style=padding-top: 35px>
O →
<strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O <div style=padding-top: 35px>
E +
<strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O <div style=padding-top: 35px>
O
D) <strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O <div style=padding-top: 35px>
O →
<strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O <div style=padding-top: 35px>
E +
<strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O <div style=padding-top: 35px>
O
Question
A radioisotope which is neutron poor and very heavy is most likely to decay by

A)alpha emission,electron capture,or positron emission.
B)only alpha emission.
C)only electron capture.
D)only positron emission.
Question
Which process decreases the neutron/proton ratio?

A)alpha emission
B)beta emission
C)electron capture
D)positron emission
Question
Fluorine-18 is a radioisotope widely used in positron emission tomography to investigate brain activity.The half-life is 109.8 minutes.How long will it take for 2.75 μg of 18F to decay to 500 ng?

A)0.288 min
B)270 min
C)871 min
D)2.06 × 103 min
Question
Neptunium-239 has a half-life of 2.35 days.How many days must elapse for a sample of 239Np to decay to 1.00% of its original quantity?

A)0.0640 days
B)0.736 days
C)1.36 days
D)15.6 days
Question
If a sample of 233Pa takes 62.7 days to decrease to 20.0% of its original mass,what is its half-life?

A)0.0370 days
B)27.0 days
C)157 days
D)195 days
Question
Which of the following processes will decrease the neutron/ proton ratio?

A)positron emission
B)electron capture
C)beta emission
D)alpha emission
Question
What is the decay constant for a radioactive isotope which decreases to 34% of its original value in 2.48 hours?

A)0.137 hr-1
B)0.168 hr-1
C)0.435 hr-1
D)2.30 hr-1
Question
As the atomic number of the elements increases,the ratio of neutrons to protons in stable nuclei

A)decreases.
B)stays the same.
C)increases.
D)is unrelated to stability.
Question
A radioisotope has a neutron/proton ratio which is too low.Which of the following processes will not occur for such a nucleus?

A)alpha emission
B)beta emission
C)electron capture
D)positron emission
Question
Iodine-123,used in thyroid therapy,has a half-life of 13.27 hours.How many half-lives are required for a 160 mg sample of iodine-123 to decay to 5.0 mg?

A)0.031
B)1.0
C)5.0
D)32
Question
An experiment with 55Co takes 47.5 hours.At the end of the experiment,1.90 ng of 55Co remains.If the half life is 18.0 hours,how many ng of 55Co were originally present?

A)2.47 ng
B)3.05 ng
C)3.28 ng
D)11.8 ng
Question
A researcher needs 5.00 mg of 128Ba for an experiment.If the half-life of 128Ba is 2.43 days,how many milligrams of 128BaCl2 must she order from the manufacturer if it takes 4.50 days to ship the material from the manufacturer to the university? (Assume the molar mass of 128Ba is 128 g/mol. )

A)11.6 mg
B)18.0 mg
C)21.5 mg
D)44.9 mg
Question
What percentage of a radioactive substance remains after 6.00 half-lives have elapsed?

A)0.78%
B)1.56%
C)3.31%
D)6.25%
Question
Which of the following elements would be expected to be particularly stable?

A) <strong>Which of the following elements would be expected to be particularly stable?</strong> A) Ca B) K C) Ar D) Cl <div style=padding-top: 35px>
Ca
B) <strong>Which of the following elements would be expected to be particularly stable?</strong> A) Ca B) K C) Ar D) Cl <div style=padding-top: 35px>
K
C) <strong>Which of the following elements would be expected to be particularly stable?</strong> A) Ca B) K C) Ar D) Cl <div style=padding-top: 35px>
Ar
D) <strong>Which of the following elements would be expected to be particularly stable?</strong> A) Ca B) K C) Ar D) Cl <div style=padding-top: 35px>
Cl
Question
Which of the following elements would you expect to have the largest number of stable isotopes? Element number:

A)48
B)49
C)50
D)51
Question
Mass defect is the mass lost when

A)an atom is formed from individual protons,neutrons,and electrons.
B)a nucleus is formed from individual protons and neutrons.
C)electrons are removed from an atom.
D)electrons are added to an atom.
Question
Which one of the following statements about isotopes is false?

A)The ratio of neutrons to protons is about 1:1 for elements lighter than Ca.
B)The ratio of neutrons to protons is > 1:1 for elements heavier than Ca.
C)Nonradioactive isotopes generally have an odd number of neutrons.
D)All isotopes beyond 209Bi are radioactive.
Question
Which of the following statements regarding nuclear stability is true?

A)A stable element always has an equal number of protons and neutrons.
B)The most abundant isotope of an element always has an equal number of protons and neutrons.
C)Very few elements have at least one radioactive isotope.
D)Hydrogen is the only element whose most abundant isotope contains more protons than neutrons.
Question
Fluorine-18 is an isotope used in Positron Emission Tomography (PET)to scan the brain.If a researcher has 1.50 μg of 18F,how long before it decays to 1.0 ng? The half-life of 18F is 109.8 minutes.

A)5.2 × 10-2 hr
B)4.6 × 10-2 hr
C)19 hr
D)51 hr
Question
Which one of the following combinations of neutrons/protons results in the lowest number of nonradioactive (stable)isotopes?

A)even number protons/even number neutrons
B)even number protons/odd number neutrons
C)odd number protons/even number neutrons
D)odd number protons/odd number neutrons
Question
In fusion reactions to make superheavy elements,energy is required to bring the two nuclei together and to form additional mass.How much energy must be converted into mass for the alpha bombardment of 253Es to form 257Md? (The isotopic masses are 253Es = 253.08294 amu,4He = 4.00260 amu,257Md = 257.09558 amu. )

A)3.01 × 106 kJ/mol
B)9.04 × 108 kJ/mol
C)3.59 × 1011 kJ/mol
D)7.21 × 1011 kJ/mol
Question
The total binding energies for 3He,4He,and 6He are 7.72 MeV,28.29 MeV,and 29.26 MeV respectively.Arrange the 3 isotopes in increasing order of binding energy per nucleon.

A).3He < 4He < 6He
B).6He < 4He < 3He
C).4He < 3He < 6He
D).3He < 6He < 4He
Question
Which reaction is expected to release the greatest amount of energy?

A)2 H → H2
B) <strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N <div style=padding-top: 35px>
H +
<strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N <div style=padding-top: 35px>
H →
<strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N <div style=padding-top: 35px>
He
C) <strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N <div style=padding-top: 35px>
N +
<strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N <div style=padding-top: 35px>
U →
<strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N <div style=padding-top: 35px>
Te +
<strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N <div style=padding-top: 35px>
Zr + 2 1n
D) <strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N <div style=padding-top: 35px>
N +
<strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N <div style=padding-top: 35px>
U →
<strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N <div style=padding-top: 35px>
Ba +
<strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N <div style=padding-top: 35px>
Kr + 3
<strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N <div style=padding-top: 35px>
N
Question
Choose the words that best complete the following sentence. The ________ the binding energy,the ________ stable the nucleus.

A)larger,less
B)larger,more
C)smaller,less
D)smaller,more
Question
A binding energy curve is a plot of binding energy per nucleon versus atomic number.In what region of the binding energy curve are the most stable elements found?

A)in the lower left region (low atomic mass)
B)in the central top region (moderate atomic mass)
C)in the lower right region (heavy atomic mass)
D)binding energy is not dependent on atomic mass
Question
Four heavy elements (A, B, C, and D) will fission when bombarded by neutrons. In addition to fissioning into two smaller elements, A also gives off a beta particle, B gives off gamma rays, C gives off neutrons, and D gives off alpha particles. Which element would make a possible fuel for a nuclear reactor?

A)element A
B)element B
C)element C
D)element D
Question
Nitrogen-14 (14.003074 amu)is synthesized in the sun by fusion of 13C (13.003355 amu)and 1H (1.007825 amu).How much energy is released in this nuclear reaction?

A)2.432 × 106 kJ/mol
B)7.295 × 108 kJ/mol
C)9.141 × 1010 kJ/mol
D)1.807 × 1011 kJ/mol
Question
The binding energy is defined as

A)the amount of energy absorbed when electrons are added to an ion.
B)the amount of energy absorbed when protons and neutrons form a nucleus.
C)the amount of energy released when electrons are removed from the atom.
D)the amount of energy required to break apart a nucleus into individual protons and neutrons.
Question
Elements with ________ atomic mass are best possible candidates for a fission reaction.

A)very low
B)moderate
C)moderate to heavy
D)very heavy
Question
Breaking a chemical bond requires approximately 102 kJ/mol of energy.What is closest to the order of magnitude of the energy required to split a nucleus in to its individual protons and neutrons?

A)103 kJ/mol
B)104 kJ/mol
C)108 kJ/mol
D)1010 kJ/mol
Question
If the mass of one neutron is 1.00866 amu,the mass of one proton is 1.00728 amu,and the mass of 12C nucleus is 11.99671 amu,calculate the binding energy for the 12C nucleus.

A)8.90 × 109 kJ/mol
B)8.90 × 1012 kJ/mol
C)1.10 × 1015 kJ/mol
D)1.10 × 1018 kJ/mol
Question
If the mass of one neutron is 1.00866 amu,the mass of one proton is 1.00728 amu,and the mass of 14C nucleus is 13.99995 amu,calculate the binding energy for the 14C nucleus.

A)9.92 × 109 kJ/mol
B)1.02 × 1010 kJ/mol
C)5.54 × 1011 kJ/mol
D)5.95 × 1011 kJ/mol
Question
The sum of the masses of the protons and neutrons in a given nucleus minus the mass of that nucleus is always

A)negative.
B)positive.
C)temperature dependent.
D)zero.
Question
How much energy is released for alpha decay of 236U? The masses of 4He,232Th,and 236U are 4.002604,232.038124,and 236.045637 amu,respectively.

A)1.473 × 108 kJ/mol
B)4.418 × 108 kJ/mol
C)4.909 × 108 kJ/mol
D)7.209 × 108 kJ/mol
Question
Calculate the mass defect for the formation of phosphorus-31.The mass of a phosphorus-31 nucleus is 30.973765 amu.The masses of a proton and a neutron are 1.00728 and 1.00866 amu,respectively.

A)0.13015 amu
B)0.15404 amu
C)0.27261 amu
D)0.27399 amu
Question
Which does not apply to a nuclear fusion reaction?

A)Atoms of one element cannot be converted to atoms of another element.
B)Energy is conserved.
C)Matter is conserved.
D)None of these apply to a nuclear fusion reaction.
Question
Elements with ________ atomic mass are best possible candidates for a fusion reaction.

A)very low
B)moderate
C)moderate to heavy
D)very heavy
Question
What is the mass change in grams for the reaction 2 NO2(g)→ N2O4(g)? The enthalpy for the reaction is -57.2 kJ.

A)-6.36 × 10-13 g
B)-6.36 × 10-10 g
C)-1.91 × 10-7 g
D)-1.91 × 10-4 g
Question
Which of the following is not an advantage of fusion reactions over fission reactions for power generation?

A)cheap and plentiful fuel
B)ease of reaction initiation
C)Fusion products are non-polluting.
D)Fusion products are nonradioactive.
Question
What does the term "critical mass" mean? It is the

A)amount of fissionable material which will self-sustain a nuclear chain reaction.
B)difference between mass of individual protons and neutrons and the mass of the nucleus.
C)energy which holds the nucleus together.
D)mass of fuel in a nuclear reactor core.
Question
Which unit of radiation describes the amount of energy absorbed by a kilogram of tissue exposed to a radiation source?

A)becquerel
B)curie
C)rad
D)rem
Question
The first transuranium element was synthesized by bombarding <strong>The first transuranium element was synthesized by bombarding U with neutrons.After capturing one neutron,the resulting nuclide was unstable and decayed by beta emission.What was the product of these two nuclear reactions?</strong> A) Np B) Pa C) Th D) U <div style=padding-top: 35px> U with neutrons.After capturing one neutron,the resulting nuclide was unstable and decayed by beta emission.What was the product of these two nuclear reactions?

A) <strong>The first transuranium element was synthesized by bombarding U with neutrons.After capturing one neutron,the resulting nuclide was unstable and decayed by beta emission.What was the product of these two nuclear reactions?</strong> A) Np B) Pa C) Th D) U <div style=padding-top: 35px>
Np
B) <strong>The first transuranium element was synthesized by bombarding U with neutrons.After capturing one neutron,the resulting nuclide was unstable and decayed by beta emission.What was the product of these two nuclear reactions?</strong> A) Np B) Pa C) Th D) U <div style=padding-top: 35px>
Pa
C) <strong>The first transuranium element was synthesized by bombarding U with neutrons.After capturing one neutron,the resulting nuclide was unstable and decayed by beta emission.What was the product of these two nuclear reactions?</strong> A) Np B) Pa C) Th D) U <div style=padding-top: 35px>
Th
D) <strong>The first transuranium element was synthesized by bombarding U with neutrons.After capturing one neutron,the resulting nuclide was unstable and decayed by beta emission.What was the product of these two nuclear reactions?</strong> A) Np B) Pa C) Th D) U <div style=padding-top: 35px>
U
Question
The effects of ionizing radiation depend on

A)length of exposure to radiation.
B)location of source (internal or external).
C)type and energy of radiation.
D)All of these
Question
A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for <strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be <div style=padding-top: 35px> Li (n,α)?

A) <strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be <div style=padding-top: 35px>
Li +
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be <div style=padding-top: 35px>
N →
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be <div style=padding-top: 35px>
He +
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be <div style=padding-top: 35px>
H
B) <strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be <div style=padding-top: 35px>
Li +
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be <div style=padding-top: 35px>
He →
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be <div style=padding-top: 35px>
N +
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be <div style=padding-top: 35px>
B
C) <strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be <div style=padding-top: 35px>
Li +
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be <div style=padding-top: 35px>
N →
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be <div style=padding-top: 35px>
He +
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be <div style=padding-top: 35px>
He
D) <strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be <div style=padding-top: 35px>
Li +
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be <div style=padding-top: 35px>
He →
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be <div style=padding-top: 35px>
N +
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be <div style=padding-top: 35px>
Be
Question
Which one of the following is most penetrating?

A)alpha particles
B)beta particles
C)gamma rays
D)positrons
Question
Which unit of radiation describes the amount of radiation emitted by a radioactive substance?

A)becquerel
B)gray
C)rad
D)rem
Question
Radiation is detected by its ________ properties.

A)gravitational
B)ionizing
C)kinetic
D)thermal
Question
A becquerel is

A)the amount of sample that undergoes 1 disintegration per second.
B)the amount of sample that undergoes 3.7 × 1010 disintegrations per second.
C)the amount of tissue damage done by radiation.
D)equal to 0.01 J of energy absorbed per kilogram of tissue.
Question
A sievert is

A)the amount of sample that undergoes 1 disintegration per second.
B)the amount of sample that undergoes 3.7 × 1010 disintegrations per second.
C)the amount of tissue damage done by radiation.
D)equal to 0.01 J of energy absorbed per kilogram of tissue.
Question
A curie is

A)the amount of sample that undergoes 1 disintegration per second.
B)the amount of sample that undergoes 3.7 × 1010 disintegrations per second.
C)the amount of tissue damage done by radiation.
D)equal to 0.01 J of energy absorbed per kilogram of tissue.
Question
Ionizing radiation having the lowest energy is exhibited by

A)α particles.
B)β particles.
C)γ rays.
D)X-rays.
Question
Which unit of radiation is frequently used in medicine to describe the amount of tissue damage caused by a radioactive substance?

A)becquerel
B)curie
C)rad
D)rem
Question
Which one of the following instruments would be the least suitable for detecting particles given off in radioactive decay?

A)electron microsope
B)Geiger counter
C)photographic film
D)scintillation counter
Question
An element, <strong>An element, X is formed by bombardment of uranium-238 atoms with a beta particle.How many neutrons are produced by this reaction?</strong> A)3 B)2 C)1 D)0 <div style=padding-top: 35px> X is formed by bombardment of uranium-238 atoms with a beta particle.How many neutrons are produced by this reaction?

A)3
B)2
C)1
D)0
Question
A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which particle is produced by <strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which particle is produced by<sub> </sub> <sub> </sub> Li (p,α)?</strong> A) H B) He C) Be D) He <div style=padding-top: 35px> Li (p,α)?

A) <strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which particle is produced by<sub> </sub> <sub> </sub> Li (p,α)?</strong> A) H B) He C) Be D) He <div style=padding-top: 35px>
H
B) <strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which particle is produced by<sub> </sub> <sub> </sub> Li (p,α)?</strong> A) H B) He C) Be D) He <div style=padding-top: 35px>
He
C) <strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which particle is produced by<sub> </sub> <sub> </sub> Li (p,α)?</strong> A) H B) He C) Be D) He <div style=padding-top: 35px>
Be
D) <strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which particle is produced by<sub> </sub> <sub> </sub> Li (p,α)?</strong> A) H B) He C) Be D) He <div style=padding-top: 35px>
He
Question
The masses of 4He,6Li,and 10B are 4.0015,6.0135,and 10.0102 amu respectively.The fission of a boron-10 nucleus into He-4 and Li-6 would

A)absorb energy.
B)evolve energy.
C)result in no energy change.
D)Need more information
Question
Oxygen-16 (15.994915 amu)is synthesized in the sun by fusion of 12C (12.000000 amu)and 4He (4.00260 amu).How much energy is released in this nuclear reaction?

A)2.48 × 103 kJ/mol
B)2.30 × 106 kJ/mol
C)6.92 × 108 kJ/mol
D)7.20 × 1011 kJ/mol
Question
A rad is

A)the amount of sample that undergoes 1 disintegration per second.
B)the amount of sample that undergoes 3.7 × 1010 disintegrations per second.
C)the amount of tissue damage done by radiation.
D)equal to 0.01 J of energy absorbed per kilogram of tissue.
Question
What is the missing product of the nuclear reaction? <strong>What is the missing product of the nuclear reaction? Bi + p → ? + Po</strong> A)α B)β+ C)β- D)n <div style=padding-top: 35px> Bi + <strong>What is the missing product of the nuclear reaction? Bi + p → ? + Po</strong> A)α B)β+ C)β- D)n <div style=padding-top: 35px> p → ? + <strong>What is the missing product of the nuclear reaction? Bi + p → ? + Po</strong> A)α B)β+ C)β- D)n <div style=padding-top: 35px> Po

A)α
B)β+
C)β-
D)n
Question
Which ionizing radiation has the greatest energy?

A)α
B)β
C)γ
D)χ
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Deck 19: Nuclear Chemistry
1
Which of the following statements about electron capture is false?

A)The electron is used to convert a proton to a neutron.
B)The electron involved is most likely an outer shell valence electron.
C)In electron capture decay,the atomic number decreases by one.
D)In electron capture decay,the mass number remains unchanged.
The electron involved is most likely an outer shell valence electron.
2
The number of nucleons in a <strong>The number of nucleons in a U<sup>2+ </sup>nucleus<sup> </sup>is</strong> A)92. B)144. C)236. D)328. U2+ nucleus is

A)92.
B)144.
C)236.
D)328.
236.
3
Which of the following statements about positrons is false?

A)The positron has same mass as an electron.
B)A positron is ejected from the nucleus during the conversion of a proton into a neutron.
C)A positron is a positive electron.
D)When positron emission occurs,the atomic number of the nucleus increases.
When positron emission occurs,the atomic number of the nucleus increases.
4
Positron emission changes the atomic number of an element by

A)-2.
B)-1.
C)+1.
D)+2.
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5
The nuclear decay process that involves the particle having the greatest mass is ________ emission.

A)alpha
B)beta
C)gamma
D)positron
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6
Which reaction below represents <strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th Th decay by alpha emission?

A) <strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th
Th →
<strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th
He +
<strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th
Ra
B) <strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th
Th →
<strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th
He +
<strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th
Ra
C) <strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th
Th →
<strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th
P +
<strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th
Ac
D) <strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th
Th →
<strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th
N +
<strong>Which reaction below represents Th decay by alpha emission?</strong> A) Th → He + Ra B) Th → He + Ra C) Th → P + Ac D) Th → N + Th
Th
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7
Which statement about nuclear reactions is true?

A)New elements are never produced in a nuclear reaction.
B)Nuclear reactions involve valence electrons.
C)The rate of a nuclear reaction is affected by catalysts.
D)Tremendous amounts of energy are involved in nuclear reactions.
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8
The number of nucleons in an atom or ion is the same as the

A)atomic number.
B)charge on the atom or ion.
C)mass number.
D)none of these
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9
In addition to a beta particle,what is the other product of beta decay of <strong>In addition to a beta particle,what is the other product of beta decay of I?</strong> A) Sb B) Te C) Xe D) Cs I?

A) <strong>In addition to a beta particle,what is the other product of beta decay of I?</strong> A) Sb B) Te C) Xe D) Cs
Sb
B) <strong>In addition to a beta particle,what is the other product of beta decay of I?</strong> A) Sb B) Te C) Xe D) Cs
Te
C) <strong>In addition to a beta particle,what is the other product of beta decay of I?</strong> A) Sb B) Te C) Xe D) Cs
Xe
D) <strong>In addition to a beta particle,what is the other product of beta decay of I?</strong> A) Sb B) Te C) Xe D) Cs
Cs
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10
A beta particle is

A) <strong>A beta particle is</strong> A) E. B) E. C) P. D) He.
E.
B) <strong>A beta particle is</strong> A) E. B) E. C) P. D) He.
E.
C) <strong>A beta particle is</strong> A) E. B) E. C) P. D) He.
P.
D) <strong>A beta particle is</strong> A) E. B) E. C) P. D) He.
He.
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11
The nuclear transformation potassium-40 argon-40 + ? is classified as

A)alpha emission.
B)beta emission.
C)electron capture.
D)positron emission.
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12
Which reaction below represents <strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc Ti decay by electron capture?

A) <strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc
Ti +
<strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc
E →
<strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc
Ti
B) <strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc
Ti +
<strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc
E →
<strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc
Ti
C) <strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc
Ti +
<strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc
E →
<strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc
Ti
D) <strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc
Ti +
<strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc
E →
<strong>Which reaction below represents Ti decay by electron capture?</strong> A) Ti + E → Ti B) Ti + E → Ti C) Ti + E → Ti D) Ti + E → Sc
Sc
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13
Tritium, <strong>Tritium, H,is formed in the upper atmosphere when N captures a neutron and then decays.What is the other product of this reaction?</strong> A) C B) C C) B D) B H,is formed in the upper atmosphere when <strong>Tritium, H,is formed in the upper atmosphere when N captures a neutron and then decays.What is the other product of this reaction?</strong> A) C B) C C) B D) B N captures a neutron and then decays.What is the other product of this reaction?

A) <strong>Tritium, H,is formed in the upper atmosphere when N captures a neutron and then decays.What is the other product of this reaction?</strong> A) C B) C C) B D) B
C
B) <strong>Tritium, H,is formed in the upper atmosphere when N captures a neutron and then decays.What is the other product of this reaction?</strong> A) C B) C C) B D) B
C
C) <strong>Tritium, H,is formed in the upper atmosphere when N captures a neutron and then decays.What is the other product of this reaction?</strong> A) C B) C C) B D) B
B
D) <strong>Tritium, H,is formed in the upper atmosphere when N captures a neutron and then decays.What is the other product of this reaction?</strong> A) C B) C C) B D) B
B
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14
Which of the following statements is not correct when balancing a nuclear equation? I.The mass numbers must be conserved on both sides of the reaction arrow.
II.The ionic charges must be conserved on both sides of the reaction arrow.
III.The atomic numbers must be conserved on both sides of the reaction arrow.
IV.The elements must be the same on both sides of the reaction arrow.

A)II only
B)II and III
C)I and III
D)II and IV
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15
Beta decay of 24Na produces a beta particle and

A).20F.
B).23Na.
C).24Ne.
D).24Mg.
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16
An alpha particle is

A) <strong>An alpha particle is</strong> A) H<sup>+</sup>. B) H<sup>+</sup>. C) H<sup>+</sup>. D) He<sup>2+</sup>.
H+.
B) <strong>An alpha particle is</strong> A) H<sup>+</sup>. B) H<sup>+</sup>. C) H<sup>+</sup>. D) He<sup>2+</sup>.
H+.
C) <strong>An alpha particle is</strong> A) H<sup>+</sup>. B) H<sup>+</sup>. C) H<sup>+</sup>. D) He<sup>2+</sup>.
H+.
D) <strong>An alpha particle is</strong> A) H<sup>+</sup>. B) H<sup>+</sup>. C) H<sup>+</sup>. D) He<sup>2+</sup>.
He2+.
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17
Which of the following statements about gamma radiation is false?

A)It almost always accompanies alpha or beta emission.
B)It is a mechanism to release excess energy in the nucleus.
C)Gamma rays are high energy photons.
D)The mass number decreases by one with each gamma emitted.
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18
Which of the following decay processes give a product nuclide whose atomic number is one less than the starting nuclide?

A)alpha decay
B)beta decay and positron decay
C)gamma decay and beta decay
D)positron decay and electron capture
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19
Gamma radiation can be described as

A)a helium nucleus.
B)a negatively charged free electron.
C)high energy electromagnetic radiation.
D)a positively charged free electron.
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20
Which reaction below represents <strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O O decay by positron emission?

A) <strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O
O →
<strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O
E +
<strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O
Ra
B) <strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O
O →
<strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O
E +
<strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O
N
C) <strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O
O →
<strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O
E +
<strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O
O
D) <strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O
O →
<strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O
E +
<strong>Which reaction below represents O decay by positron emission?</strong> A) O → E + Ra B) O → E + N C) O → E + O D) O → E + O
O
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21
A radioisotope which is neutron poor and very heavy is most likely to decay by

A)alpha emission,electron capture,or positron emission.
B)only alpha emission.
C)only electron capture.
D)only positron emission.
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22
Which process decreases the neutron/proton ratio?

A)alpha emission
B)beta emission
C)electron capture
D)positron emission
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23
Fluorine-18 is a radioisotope widely used in positron emission tomography to investigate brain activity.The half-life is 109.8 minutes.How long will it take for 2.75 μg of 18F to decay to 500 ng?

A)0.288 min
B)270 min
C)871 min
D)2.06 × 103 min
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24
Neptunium-239 has a half-life of 2.35 days.How many days must elapse for a sample of 239Np to decay to 1.00% of its original quantity?

A)0.0640 days
B)0.736 days
C)1.36 days
D)15.6 days
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25
If a sample of 233Pa takes 62.7 days to decrease to 20.0% of its original mass,what is its half-life?

A)0.0370 days
B)27.0 days
C)157 days
D)195 days
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26
Which of the following processes will decrease the neutron/ proton ratio?

A)positron emission
B)electron capture
C)beta emission
D)alpha emission
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27
What is the decay constant for a radioactive isotope which decreases to 34% of its original value in 2.48 hours?

A)0.137 hr-1
B)0.168 hr-1
C)0.435 hr-1
D)2.30 hr-1
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28
As the atomic number of the elements increases,the ratio of neutrons to protons in stable nuclei

A)decreases.
B)stays the same.
C)increases.
D)is unrelated to stability.
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29
A radioisotope has a neutron/proton ratio which is too low.Which of the following processes will not occur for such a nucleus?

A)alpha emission
B)beta emission
C)electron capture
D)positron emission
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30
Iodine-123,used in thyroid therapy,has a half-life of 13.27 hours.How many half-lives are required for a 160 mg sample of iodine-123 to decay to 5.0 mg?

A)0.031
B)1.0
C)5.0
D)32
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31
An experiment with 55Co takes 47.5 hours.At the end of the experiment,1.90 ng of 55Co remains.If the half life is 18.0 hours,how many ng of 55Co were originally present?

A)2.47 ng
B)3.05 ng
C)3.28 ng
D)11.8 ng
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32
A researcher needs 5.00 mg of 128Ba for an experiment.If the half-life of 128Ba is 2.43 days,how many milligrams of 128BaCl2 must she order from the manufacturer if it takes 4.50 days to ship the material from the manufacturer to the university? (Assume the molar mass of 128Ba is 128 g/mol. )

A)11.6 mg
B)18.0 mg
C)21.5 mg
D)44.9 mg
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33
What percentage of a radioactive substance remains after 6.00 half-lives have elapsed?

A)0.78%
B)1.56%
C)3.31%
D)6.25%
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34
Which of the following elements would be expected to be particularly stable?

A) <strong>Which of the following elements would be expected to be particularly stable?</strong> A) Ca B) K C) Ar D) Cl
Ca
B) <strong>Which of the following elements would be expected to be particularly stable?</strong> A) Ca B) K C) Ar D) Cl
K
C) <strong>Which of the following elements would be expected to be particularly stable?</strong> A) Ca B) K C) Ar D) Cl
Ar
D) <strong>Which of the following elements would be expected to be particularly stable?</strong> A) Ca B) K C) Ar D) Cl
Cl
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35
Which of the following elements would you expect to have the largest number of stable isotopes? Element number:

A)48
B)49
C)50
D)51
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36
Mass defect is the mass lost when

A)an atom is formed from individual protons,neutrons,and electrons.
B)a nucleus is formed from individual protons and neutrons.
C)electrons are removed from an atom.
D)electrons are added to an atom.
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37
Which one of the following statements about isotopes is false?

A)The ratio of neutrons to protons is about 1:1 for elements lighter than Ca.
B)The ratio of neutrons to protons is > 1:1 for elements heavier than Ca.
C)Nonradioactive isotopes generally have an odd number of neutrons.
D)All isotopes beyond 209Bi are radioactive.
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38
Which of the following statements regarding nuclear stability is true?

A)A stable element always has an equal number of protons and neutrons.
B)The most abundant isotope of an element always has an equal number of protons and neutrons.
C)Very few elements have at least one radioactive isotope.
D)Hydrogen is the only element whose most abundant isotope contains more protons than neutrons.
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39
Fluorine-18 is an isotope used in Positron Emission Tomography (PET)to scan the brain.If a researcher has 1.50 μg of 18F,how long before it decays to 1.0 ng? The half-life of 18F is 109.8 minutes.

A)5.2 × 10-2 hr
B)4.6 × 10-2 hr
C)19 hr
D)51 hr
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40
Which one of the following combinations of neutrons/protons results in the lowest number of nonradioactive (stable)isotopes?

A)even number protons/even number neutrons
B)even number protons/odd number neutrons
C)odd number protons/even number neutrons
D)odd number protons/odd number neutrons
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41
In fusion reactions to make superheavy elements,energy is required to bring the two nuclei together and to form additional mass.How much energy must be converted into mass for the alpha bombardment of 253Es to form 257Md? (The isotopic masses are 253Es = 253.08294 amu,4He = 4.00260 amu,257Md = 257.09558 amu. )

A)3.01 × 106 kJ/mol
B)9.04 × 108 kJ/mol
C)3.59 × 1011 kJ/mol
D)7.21 × 1011 kJ/mol
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42
The total binding energies for 3He,4He,and 6He are 7.72 MeV,28.29 MeV,and 29.26 MeV respectively.Arrange the 3 isotopes in increasing order of binding energy per nucleon.

A).3He < 4He < 6He
B).6He < 4He < 3He
C).4He < 3He < 6He
D).3He < 6He < 4He
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43
Which reaction is expected to release the greatest amount of energy?

A)2 H → H2
B) <strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N
H +
<strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N
H →
<strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N
He
C) <strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N
N +
<strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N
U →
<strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N
Te +
<strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N
Zr + 2 1n
D) <strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N
N +
<strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N
U →
<strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N
Ba +
<strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N
Kr + 3
<strong>Which reaction is expected to release the greatest amount of energy?</strong> A)2 H → H<sub>2</sub> B) H + H → He C) N + U → Te + Zr + 2 <sup>1</sup>n D) N + U → Ba + Kr + 3 N
N
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44
Choose the words that best complete the following sentence. The ________ the binding energy,the ________ stable the nucleus.

A)larger,less
B)larger,more
C)smaller,less
D)smaller,more
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45
A binding energy curve is a plot of binding energy per nucleon versus atomic number.In what region of the binding energy curve are the most stable elements found?

A)in the lower left region (low atomic mass)
B)in the central top region (moderate atomic mass)
C)in the lower right region (heavy atomic mass)
D)binding energy is not dependent on atomic mass
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46
Four heavy elements (A, B, C, and D) will fission when bombarded by neutrons. In addition to fissioning into two smaller elements, A also gives off a beta particle, B gives off gamma rays, C gives off neutrons, and D gives off alpha particles. Which element would make a possible fuel for a nuclear reactor?

A)element A
B)element B
C)element C
D)element D
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47
Nitrogen-14 (14.003074 amu)is synthesized in the sun by fusion of 13C (13.003355 amu)and 1H (1.007825 amu).How much energy is released in this nuclear reaction?

A)2.432 × 106 kJ/mol
B)7.295 × 108 kJ/mol
C)9.141 × 1010 kJ/mol
D)1.807 × 1011 kJ/mol
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48
The binding energy is defined as

A)the amount of energy absorbed when electrons are added to an ion.
B)the amount of energy absorbed when protons and neutrons form a nucleus.
C)the amount of energy released when electrons are removed from the atom.
D)the amount of energy required to break apart a nucleus into individual protons and neutrons.
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49
Elements with ________ atomic mass are best possible candidates for a fission reaction.

A)very low
B)moderate
C)moderate to heavy
D)very heavy
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50
Breaking a chemical bond requires approximately 102 kJ/mol of energy.What is closest to the order of magnitude of the energy required to split a nucleus in to its individual protons and neutrons?

A)103 kJ/mol
B)104 kJ/mol
C)108 kJ/mol
D)1010 kJ/mol
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51
If the mass of one neutron is 1.00866 amu,the mass of one proton is 1.00728 amu,and the mass of 12C nucleus is 11.99671 amu,calculate the binding energy for the 12C nucleus.

A)8.90 × 109 kJ/mol
B)8.90 × 1012 kJ/mol
C)1.10 × 1015 kJ/mol
D)1.10 × 1018 kJ/mol
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52
If the mass of one neutron is 1.00866 amu,the mass of one proton is 1.00728 amu,and the mass of 14C nucleus is 13.99995 amu,calculate the binding energy for the 14C nucleus.

A)9.92 × 109 kJ/mol
B)1.02 × 1010 kJ/mol
C)5.54 × 1011 kJ/mol
D)5.95 × 1011 kJ/mol
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53
The sum of the masses of the protons and neutrons in a given nucleus minus the mass of that nucleus is always

A)negative.
B)positive.
C)temperature dependent.
D)zero.
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54
How much energy is released for alpha decay of 236U? The masses of 4He,232Th,and 236U are 4.002604,232.038124,and 236.045637 amu,respectively.

A)1.473 × 108 kJ/mol
B)4.418 × 108 kJ/mol
C)4.909 × 108 kJ/mol
D)7.209 × 108 kJ/mol
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55
Calculate the mass defect for the formation of phosphorus-31.The mass of a phosphorus-31 nucleus is 30.973765 amu.The masses of a proton and a neutron are 1.00728 and 1.00866 amu,respectively.

A)0.13015 amu
B)0.15404 amu
C)0.27261 amu
D)0.27399 amu
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56
Which does not apply to a nuclear fusion reaction?

A)Atoms of one element cannot be converted to atoms of another element.
B)Energy is conserved.
C)Matter is conserved.
D)None of these apply to a nuclear fusion reaction.
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57
Elements with ________ atomic mass are best possible candidates for a fusion reaction.

A)very low
B)moderate
C)moderate to heavy
D)very heavy
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58
What is the mass change in grams for the reaction 2 NO2(g)→ N2O4(g)? The enthalpy for the reaction is -57.2 kJ.

A)-6.36 × 10-13 g
B)-6.36 × 10-10 g
C)-1.91 × 10-7 g
D)-1.91 × 10-4 g
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59
Which of the following is not an advantage of fusion reactions over fission reactions for power generation?

A)cheap and plentiful fuel
B)ease of reaction initiation
C)Fusion products are non-polluting.
D)Fusion products are nonradioactive.
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60
What does the term "critical mass" mean? It is the

A)amount of fissionable material which will self-sustain a nuclear chain reaction.
B)difference between mass of individual protons and neutrons and the mass of the nucleus.
C)energy which holds the nucleus together.
D)mass of fuel in a nuclear reactor core.
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61
Which unit of radiation describes the amount of energy absorbed by a kilogram of tissue exposed to a radiation source?

A)becquerel
B)curie
C)rad
D)rem
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62
The first transuranium element was synthesized by bombarding <strong>The first transuranium element was synthesized by bombarding U with neutrons.After capturing one neutron,the resulting nuclide was unstable and decayed by beta emission.What was the product of these two nuclear reactions?</strong> A) Np B) Pa C) Th D) U U with neutrons.After capturing one neutron,the resulting nuclide was unstable and decayed by beta emission.What was the product of these two nuclear reactions?

A) <strong>The first transuranium element was synthesized by bombarding U with neutrons.After capturing one neutron,the resulting nuclide was unstable and decayed by beta emission.What was the product of these two nuclear reactions?</strong> A) Np B) Pa C) Th D) U
Np
B) <strong>The first transuranium element was synthesized by bombarding U with neutrons.After capturing one neutron,the resulting nuclide was unstable and decayed by beta emission.What was the product of these two nuclear reactions?</strong> A) Np B) Pa C) Th D) U
Pa
C) <strong>The first transuranium element was synthesized by bombarding U with neutrons.After capturing one neutron,the resulting nuclide was unstable and decayed by beta emission.What was the product of these two nuclear reactions?</strong> A) Np B) Pa C) Th D) U
Th
D) <strong>The first transuranium element was synthesized by bombarding U with neutrons.After capturing one neutron,the resulting nuclide was unstable and decayed by beta emission.What was the product of these two nuclear reactions?</strong> A) Np B) Pa C) Th D) U
U
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63
The effects of ionizing radiation depend on

A)length of exposure to radiation.
B)location of source (internal or external).
C)type and energy of radiation.
D)All of these
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64
A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for <strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be Li (n,α)?

A) <strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be
Li +
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be
N →
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be
He +
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be
H
B) <strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be
Li +
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be
He →
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be
N +
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be
B
C) <strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be
Li +
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be
N →
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be
He +
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be
He
D) <strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be
Li +
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be
He →
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be
N +
<strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which of the following equations shows the balanced nuclear reaction for Li (n,α)?</strong> A) Li + N → He + H B) Li + He → N + B C) Li + N → He + He D) Li + He → N + Be
Be
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65
Which one of the following is most penetrating?

A)alpha particles
B)beta particles
C)gamma rays
D)positrons
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66
Which unit of radiation describes the amount of radiation emitted by a radioactive substance?

A)becquerel
B)gray
C)rad
D)rem
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67
Radiation is detected by its ________ properties.

A)gravitational
B)ionizing
C)kinetic
D)thermal
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68
A becquerel is

A)the amount of sample that undergoes 1 disintegration per second.
B)the amount of sample that undergoes 3.7 × 1010 disintegrations per second.
C)the amount of tissue damage done by radiation.
D)equal to 0.01 J of energy absorbed per kilogram of tissue.
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69
A sievert is

A)the amount of sample that undergoes 1 disintegration per second.
B)the amount of sample that undergoes 3.7 × 1010 disintegrations per second.
C)the amount of tissue damage done by radiation.
D)equal to 0.01 J of energy absorbed per kilogram of tissue.
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70
A curie is

A)the amount of sample that undergoes 1 disintegration per second.
B)the amount of sample that undergoes 3.7 × 1010 disintegrations per second.
C)the amount of tissue damage done by radiation.
D)equal to 0.01 J of energy absorbed per kilogram of tissue.
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71
Ionizing radiation having the lowest energy is exhibited by

A)α particles.
B)β particles.
C)γ rays.
D)X-rays.
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72
Which unit of radiation is frequently used in medicine to describe the amount of tissue damage caused by a radioactive substance?

A)becquerel
B)curie
C)rad
D)rem
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73
Which one of the following instruments would be the least suitable for detecting particles given off in radioactive decay?

A)electron microsope
B)Geiger counter
C)photographic film
D)scintillation counter
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74
An element, <strong>An element, X is formed by bombardment of uranium-238 atoms with a beta particle.How many neutrons are produced by this reaction?</strong> A)3 B)2 C)1 D)0 X is formed by bombardment of uranium-238 atoms with a beta particle.How many neutrons are produced by this reaction?

A)3
B)2
C)1
D)0
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75
A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which particle is produced by <strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which particle is produced by<sub> </sub> <sub> </sub> Li (p,α)?</strong> A) H B) He C) Be D) He Li (p,α)?

A) <strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which particle is produced by<sub> </sub> <sub> </sub> Li (p,α)?</strong> A) H B) He C) Be D) He
H
B) <strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which particle is produced by<sub> </sub> <sub> </sub> Li (p,α)?</strong> A) H B) He C) Be D) He
He
C) <strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which particle is produced by<sub> </sub> <sub> </sub> Li (p,α)?</strong> A) H B) He C) Be D) He
Be
D) <strong>A shorthand way of writing transmutation equations is to show the bombarding particle and the subsequent emitted particle in parentheses.Which particle is produced by<sub> </sub> <sub> </sub> Li (p,α)?</strong> A) H B) He C) Be D) He
He
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76
The masses of 4He,6Li,and 10B are 4.0015,6.0135,and 10.0102 amu respectively.The fission of a boron-10 nucleus into He-4 and Li-6 would

A)absorb energy.
B)evolve energy.
C)result in no energy change.
D)Need more information
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77
Oxygen-16 (15.994915 amu)is synthesized in the sun by fusion of 12C (12.000000 amu)and 4He (4.00260 amu).How much energy is released in this nuclear reaction?

A)2.48 × 103 kJ/mol
B)2.30 × 106 kJ/mol
C)6.92 × 108 kJ/mol
D)7.20 × 1011 kJ/mol
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78
A rad is

A)the amount of sample that undergoes 1 disintegration per second.
B)the amount of sample that undergoes 3.7 × 1010 disintegrations per second.
C)the amount of tissue damage done by radiation.
D)equal to 0.01 J of energy absorbed per kilogram of tissue.
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79
What is the missing product of the nuclear reaction? <strong>What is the missing product of the nuclear reaction? Bi + p → ? + Po</strong> A)α B)β+ C)β- D)n Bi + <strong>What is the missing product of the nuclear reaction? Bi + p → ? + Po</strong> A)α B)β+ C)β- D)n p → ? + <strong>What is the missing product of the nuclear reaction? Bi + p → ? + Po</strong> A)α B)β+ C)β- D)n Po

A)α
B)β+
C)β-
D)n
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80
Which ionizing radiation has the greatest energy?

A)α
B)β
C)γ
D)χ
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