Deck 21: Nuclear Chemistry-The Risks and Benefits

A)neutrons are produced.
B)the total mass of the products is less than that of the reactants.
C)the total mass of the products is more than that of the reactants.
D)it is a very powerful chemical reaction.
E)photons are produced.

A)
B)
C)
D)
E)

A)Helium is chemically inert.
B)Helium nuclei are heavier than hydrogen nuclei.
C)The boiling point of helium is higher than that of hydrogen.
D)Because E = mc² and helium nuclei are heavier than hydrogen nuclei.
E)The positive charges on helium nuclei are greater than those on the hydrogen nuclei.

A)
B)
C)
D)
E)

A)"an increase of mass number."
B)" $\beta$ particles."
C)"a new element."
D)"a change in the atomic number."
E)"positrons."

A)Ordinary chemical change occurs too slowly for the conversion of mass to energy to be observed.
B)The amount of energy available from a nuclear reaction decreases as the change in mass increases.
C)Small changes in mass result in very large changes in energy because of the speed of light squared dependence.
D)The mass of the universe must remain constant even though energy is released during nuclear change.
E)The energy of the universe is decreasing because the mass of the universe is increasing.

A)
B)
C)
D)
E)

A)Muons
B)Mesons
C)Leptons
D)Higgs bosons
E)Gluons

A)
B)
C)
D)
E)

A)"cosmic rays."
B)" $\gamma$ rays."
C)"gluons."
D)"electrons."
E)"positrons."

A)The repulsion between neutrons and other neutrons.
B)The repulsion between protons and other protons.
C)The repulsion between protons and neutrons.
D)The repulsion between positrons and electrons.
E)The repulsion between neutrons and electrons.

A)neutrons and protons fused together to form deuterons.
B)deuterons fused together to form alpha particles.
C)more stable nuclides were formed from less stable nuclides.
D)gamma rays were produced.
E)colliding pairs of electrons annihilated each other.

A)decreases.
B)increases.
C)stays the same.
D)is proportional to their mass.
E)is inversely proportional to their mass.

A)the strong nuclear force.
B)the electromagnetic force.
C)the electroweak force.
D)Higgs bosons.
E)quarks.

A)form a neutron.
B)strongly repel one another and recoil.
C)annihilate each other and produce $\gamma$ rays.
D)form a proton.
E)form a neutron and emit $\gamma$ rays.

A)The identity of an atom may change during a nuclear reaction.
B)The identity of an atom may change during an ordinary chemical reaction.
C)There can never be a change in the total mass measured before and after a chemical reaction or a nuclear reaction.
D)The energy change associated with a chemical reaction is always much greater than that of a nuclear reaction.
E)The free energy of the universe always increases during nuclear reactions.

A)boiling a liquid by heating it.
B)melting a solid by heating it.
C)lighting a match to start a fire.
D)two magnets attracting each other.
E)climbing up a hill and then skiing down.

A)muons
B)mesons
C)leptons
D)Higgs bosons
E)gluons

A)a neutron and a proton fuse together to form a deuteron.
B)two protons fuse together to form a deuteron and a positron.
C)a deuteron and a proton fuse to produce a helium-3 nuclide.
D)two helium-3 nuclides fuse to produce a helium-4 nuclide and two protons.
E)more stable nuclides are produced from less stable nuclides.

A)have an odd number of protons and an odd number of neutrons.
B)have an even number of protons and an even number of neutrons.
C)have noble gas configurations of electrons.
D)can be produced by fission reactions.
E)can be produced by fusion reactions.

A)3600
B)15,000
C)840,000
D)110,000
E)55,000

A)10²
B)10⁴
C)10⁶
D)10⁸
E)10¹⁰

A)nuclear binding energy vs.atomic number.
B)isotopic strength vs.isotopic weakness.
C)nuclear mass vs.mass number.
D)neutron number vs.atomic number.
E)mass number vs.atomic number.

A)"6.0 10^-7 J"
B)"2.6 10^-8 J"
C)"7.0 10^-10 J"
D)"1.1 10^-12 J"
E)"4.9 10^-12 J"

A)helium.
B)carbon.
C)uranium.
D)iron.
E)lead.

A)The energy released would be the same.
B)The energy released in (2)would be much greater than that released in (1).
C)The energy released in (1)would be much greater than that released in (2).
D)Energy is consumed in these processes,not released.
E)Energy is not released in these collisions.

A)0.185 g
B)0.555 g
C)0.898 g
D)5.41 g
E)9.22 10^-17 g

A)1.7 10⁹ kJ/g
B)3.9 10⁴ kJ/g
C)5.6 10^-9 kJ/g
D)7.9 10⁵ kJ/g
E)2.4 10⁸ kJ/g

A)1.7 10¹² J
B)5.6 10⁶ J
C)2.8 10^-9 J
D)9.2 10¹³ J
E)3.1 10⁸ J

A)The products of fusion reactions are not hazardous as are those of fission reactions.
B)The plasmas of high-energy particles in which fusion reactions occur can be contained by magnetic fields.
C)The amount of energy available from fusion reactions is much larger than any that generated by other process.
D)The use of lithium in "breeder" blankets is a disadvantage of the technology in development.
E)The limited supply of deuterium is a disadvantage of the technology in development.

A)1.2 10¹⁰ J
B)2.7 10⁹
C)3.5 10⁸J
D)4.4 10¹⁰ J
E)6.2 10^-13 J

A)1.20 10^-6 J/nucleon
B)1.08 10^-9 J/nucleon
C)1.13 10^-12 J/nucleon
D)8.73 10^-12 J/nucleon
E)1.08 10^-15 J/nucleon

A)the mass number.
B)adding the masses of protons,neutrons,and electrons.
C)dividing the mass number by 6.02 10²³.
D)measuring it.
E)dividing the molar mass of the element by 6.02 10²³.

A)synthetic.
B)produced by nuclear fission.
C)radioactive.
D)not found in nature.
E)unreactive.

A)4.4 10¹³ J
B)3.5 10¹¹ J
C)6.2 10^-10 J
D)1.2 10¹³ J
E)2.7 10¹² J

A)Nucleons are held together in a nuclide by the electromagnetic force.
B)Oxygen-15 is unstable because it has too few neutrons.
C)All nuclides with Z > 83 decay into more stable nuclides with smaller Z values.
D)As the atomic number increases,the ratio of neutrons to protons in a nuclide increases.
E)Generally the number of neutrons in a nuclide equals the number of protons,or nearly so,when the atomic number is small,i.e.,Z < 18.

A)5.6 10¹¹ J
B)1.7 10¹² J
C)2.8 10^-9 J
D)9.2 10¹³ J
E)3.1 10⁸ J

A)0.5.
B)0.8.
C)1.0.
D)1.3.
E)1.5.

A)0.5.
B)0.8.
C)1.0.
D)1.3.
E)1.5.

A)"²⁰F"
B)"¹³¹I"
C)"²⁷Mg"
D)"¹⁹O"
E)"¹³N"

A)" $\alpha$ emission"
B)" $\beta$ ^- emission"
C)"positron emission"
D)" $\gamma$ emission"
E)"X-ray emission"

A)Carbon-10 is unstable because it has too few neutrons.
B)All nuclides with Z > 83 decay into nuclides with smaller Z values.
C)Generally,the number of neutrons in a nuclide is equal to or less than the atomic number.
D)As the atomic number increases,the ratio of neutrons to protons in a nuclide increases.
E)It is very unusual to find a nuclide with an odd number of protons and an odd number of neutrons.

A)" $\beta$
B)"positron"
C)"neutron"
D)" $\alpha$ "
E)" $\gamma$ "

A)astatine-222
B)radon-226
C)radium-226
D)actinium-230
E)francium-225

A)magnesium-22
B)sodium-23
C)neon-21
D)magnesium-21
E)neon-22

A)carbon-13.
B)oxygen-17.
C)boron-11.
D)carbon-14.
E)boron-13.

A)only I
B)I and II
C)II and III
D)III,IV,and V
E)all of these

A)conversion of a neutron to a proton.
B)conversion of a proton to a neutron.
C)increase in mass number.
D)decrease in mass number.
E)emission of alpha particles.

A)"¹²⁰Te"
B)"⁹⁶Ru"
C)"¹⁰⁶Cd"
D)"¹¹⁸Sn"
E)"¹²⁴Xe"

A)conversion of a neutron to a proton.
B)conversion of a proton to a neutron.
C)increase in mass number.
D)decrease in mass number.
E)emission of alpha particles.

A)" $\alpha$ particle"
B)"neutron"
C)"proton"
D)" $\beta$ ^-particle"
E)" $\gamma$ ray"

A)platinum.
B)gold.
C)lead.
D)bismuth.
E)xenon.

A)"²⁸Al"
B)"⁷Be"
C)"⁴⁹V"
D)"⁷³As"
E)"¹²⁵I"

A)"proton"
B)"neutron"
C)" $\beta$ "
D)"positron"
E)" $\alpha$ "

A)thorium-230
B)uranium-234
C)curium-242
D)californium-246
E)plutonium-234

A)radon-222
B)lead-214
C)plutonium-238
D)bismuth-214
E)lead-218

A)cobalt-55
B)cobalt-56
C)nickel-56
D)iron-56
E)iron-55

A)conversion of a neutron to a proton.
B)conversion of a proton to a neutron.
C)increase in mass number.
D)decrease in mass number.
E)emission of alpha particles.

A)" $\alpha$ particle"
B)"neutron"
C)"proton"
D)"electron"
E)" $\gamma$ ray"

A)Radioactive decay is a random process.
B)All nuclei of a radionuclide decay at the same rate.
C)Nuclear decay always follows first-order kinetics.
D)A large number of nuclei is generally required to determine the half-life of a radionuclide.
E)In general,the more unstable the radionuclide,the shorter the half-life.

A)

B)

C)

D)

E)

A)3.89 days
B)3.24 days
C)14.8 hours
D)12.3 hours
E)1.79 days

A)"²¹⁰Po"
B)"²¹²Po"
C)"²¹⁴Po"
D)"²¹⁸Po"
E)"²²⁰Po"

A)11
B)9
C)7
D)3
E)5

A)" $\alpha$ "
B)" $\beta$ ^-"
C)"positron"
D)" $\gamma$ ray"
E)"X-ray"

A)3.30 minutes
B)1.19 minutes
C)6.20 minutes
D)1.40 minutes
E)3.10 minutes

A)2.32 t
B)32.4 t
C)1.08 t
D)13.1 t
E)0.0762 t

A)"X-ray emission"
B)" $\gamma$ emission"
C)"positron emission"
D)" $\beta$ ^- emission"
E)" $\alpha$ emission"

A)6 $\alpha$ ,no $\beta$ ^-
B)6 $\alpha$ ,4 $\beta$ ^-
C)12 $\alpha$ ,8 $\beta$ ^-
D)12 $\alpha$ ,4 $\beta$ ^-
E)8 $\alpha$ ,6 $\beta$ ^-

A)" $\beta$ ^- emission"
B)" $\beta$ ^-emission"
C)" $\alpha$ emission"
D)" $\gamma$ emission"
E)"X-ray emission"

A)288 minutes
B)109 minutes
C)156 minutes
D)175 minutes
E)238 minutes

A)phosphorus-31
B)silicon-32
C)aluminum-28
D)sulfur-32
E)sodium-24

A)

B)

C)

D)

E)

A)polonium-216
B)radon-222
C)ytterbium-182
D)osmium-182
E)lead-206

A)radium-228
B)actinium-228
C)thorium-228
D)francium-228
E)The correct answer differs from these possibilities.

A)the life that a nuclear chemist leads.
B)half of the lifetime of an unstable nucleus.
C)the time for one-half of the unstable nuclei to decay.
D)constantly changing.
E)independent of the rate constant for decay.

A)22
B)18
C)15
D)11
E)9

A)19 days
B)0.81 day
C)8.1 days
D)35 days
E)4.3 days

A)" $\gamma$ emission."
B)"electron capture."
C)"positron emission."
D)" $\alpha$ emission."
E)" $\beta$ ^- emission."