Which force is not one of the fundamental interactions?
Gravity
Electromagnetism
Medium nuclear force
Strong nuclear force
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2.3 Conservation Laws & Particle Interactions
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2.3 Conservation Laws & Particle Interactions
Which force is not one of the fundamental interactions?
Gravity
Electromagnetism
Medium nuclear force
Strong nuclear force
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Which row, A to D in the table, shows the fundamental interactions in correct order of strength?
strongest |
→ |
→ |
weakest |
|
A |
electromagnetism |
gravity |
strong |
weak |
B |
gravity |
strong |
weak |
electromagnetism |
C |
strong |
weak |
electromagnetism |
gravity |
D |
strong |
electromagnetism |
weak |
gravity |
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Which exchange particle is responsible for the electromagnetic interaction?
gluon
pion
virtual photon
Z-boson
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Which of the following are properties of virtual photons?
1 and 2
1, 2 and 4
1, 2 and 3
2, 3 and 4
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Which line in the table, A to D, correctly identifies particles which are hadrons, and the fundamental force associated with hadrons?
Hadrons |
fundamental force |
|
A |
protons and neutrons |
weak nuclear force |
B |
protons and neutrons |
strong nuclear force |
C |
electrons and positrons |
weak nuclear force |
D |
electrons and positrons |
strong nuclear force |
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The Feynman diagram below shows the strong interaction between an up and down quark.
Which exchange particle is missing from the diagram?
gluon
graviton
pion
virtual photon
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Which exchange particles are involved in the emission of leptons in β-plus and β-minus decay?
β-plus |
β-minus |
|
A |
W − | W + |
B |
W + | W − |
C |
W + | γ |
D |
γ | W − |
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The Feynman diagram shows a radioactive decay. The label for the exchange particle has been removed.
What type of decay is this, and which exchange particle is involved?
decay type |
gauge boson |
|
A |
β-plus |
W + |
B |
β-minus |
W - |
C |
α-decay |
graviton |
D |
γ-decay |
virtual photon |
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Feynman diagrams are used to represent particle interactions, including the types of incoming and outgoing particles and exchange particles.
What other information can be determined from a Feynman diagram?
1 only
1, 2 and 3
1, 3 and 4
1, 2, 3 and 4
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When a down quark turns into an up quark, which type of decay do we see?
α-decay
β-minus decay
β-plus decay
γ-decay
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Which diagram represents the process of beta-minus decay?
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The decay of a kaon is given by the equation
What are particles X and Y?
Particle X |
Particle Y |
|
A |
||
B |
||
C |
||
D |
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Which row in the table, A to D, does not give the correct exchange particle for the process described?
Process |
Exchange particle |
|
A |
electron capture |
virtual photon |
B |
mechanism for binding quarks together |
gluon |
C |
electrostatic repulsion of electrons |
virtual photon |
D |
decay |
W boson |
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Which row, A to D in the table, does not show the correct interactions experienced by the type of particle?
Particle |
Strong interaction |
Weak interaction |
|
A |
lepton |
no |
yes |
B |
meson |
yes |
yes |
C |
hadron |
yes |
no |
D |
baryon |
yes |
yes |
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The decay of a baryon is given by the equation
Which row, A to D in the table, correctly identifies the charge, baryon number and lepton number of particle X?
Charge |
Baryon number |
Lepton number |
|
A |
–1 |
0 |
0 |
B |
0 |
0 |
0 |
C |
1 |
1 |
0 |
D |
0 |
–1 |
1 |
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This Feynman diagram shows particles interacting via a W– boson. Which of the following particle choices are correct?
1 |
2 |
3 |
4 |
|
A |
Proton |
Neutron |
Neutrino |
β+ particle |
B |
Neutron |
Proton |
Muon neutrino |
β- particle |
C |
Up quark |
Down quark |
Electron neutrino |
Muon neutrino |
D |
Down quark |
Up quark |
Anti-neutrino |
β- particle |
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Complete the following β+ decay.
1 |
2 |
3 |
4 |
|
A |
Proton |
Neutrino |
boson |
Neutron |
B |
Up quark |
Antineutrino |
boson |
Strange quark |
C |
Proton |
Neutrino |
boson |
Neutron |
D |
Up quark |
Antineutrino |
boson |
Down quark |
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Four possible combinations of quarks are shown. Which ones have the same charge?
1 and 2
2 and 3
3 and 4
1, 2 and 4
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The decay of a muon is given by the equation
Which row correctly identifies the charge, baryon number and lepton number of particle X?
Charge |
Baryon number |
Lepton number |
|
A |
–1 |
-1 |
0 |
B |
0 |
0 |
1 |
C |
1 |
0 |
0 |
D |
0 |
1 |
1 |
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Which row, A to D in the table, does not give the correct exchange particle for the process described?
Process |
Exchange particle |
|
A |
strong nuclear force |
pion |
B |
strong nuclear force |
gluon |
C |
attractive force between galaxies |
graviton |
D |
magnetic repulsion |
gluon |
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Up quarks have a charge of while down quarks have a charge of .
Which of the following combinations of three quarks must make up a neutron?
up |
down |
|
A |
0 |
1 |
B |
1 |
1 |
C |
2 |
1 |
D |
1 |
2 |
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In positron emission an up quark is changed to a down quark.
The following decay equation for this is incorrect.
Which row correctly describes the checking a student would do to find the error?
charge |
baryon number |
lepton number |
|
A |
conserved |
not conserved |
conserved |
B |
conserved |
conserved |
not conserved |
C |
not conserved |
not conserved |
conserved |
D |
not conserved |
conserved |
not conserved |
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The following Feynman diagram shows the baryons and leptons in a nuclear decay
Which of the four Feynman diagrams, A to D, is physically equivalent to the diagram given for this decay?
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The graph shows an isotope of uranium (U) with its corresponding nucleon and proton numbers.
This isotope of uranium decays by alpha emission to become thorium (Th), which then undergoes β-decay to become protactinium (Pa), which undergoes a further β-decay to become a different isotope of uranium.
How does the quark composition of the nucleus change in the conversion of thorium to uranium?
no change
d-quark to u-quark
2 d-quarks to 2 u-quarks
2 u-quarks to 2 d-quarks
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Equation 1 shows the decay of a proton p, and equation 2 shows the decay of a Xi baryon, Ξ0.
Neither of the two decay equations are permitted. For each one, identify which properties are not conserved.
Equation 1:
Equation 2:
Equation 1 |
Equation 2 |
|
A |
charge and lepton number |
baryon number |
B |
charge and lepton number |
charge and lepton number |
C |
baryon number |
lepton number and baryon number |
D |
charge |
charge |
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Which of the following processes and Feynman diagrams, A to D, correspond to the following decay equation?
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A particle is found to be affected by both the electromagnetic force and the strong force.
Which one of the following could it be?
symbol |
charge / e |
quark structure |
|
A |
Σ+ |
+1 |
uus |
B |
Σ0 |
0 |
uds |
C |
e– |
–1 |
not applicable |
D |
n |
0 |
udd |
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A proton decays into a neutron, a positron, and a neutrino, as shown.
It cannot decay into a neutron and a neutrino without the emission of the positron.
Which of the following conservation laws would not be conserved if it did?
1 and 2
1 and 4
1, 2 and 3
2, 3 and 4
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Equation 1 shows the decay of a neutron, and Equation 2 shows the decay of a Sigma baryon.
Neither of the two decay equations are permitted. For each one, identify which property is not conserved.
Equation 1:
Equation 2:
Equation 1 |
Equation 2 |
|
A |
charge |
baryon number |
B |
lepton number |
baryon number |
C |
baryon number |
lepton number |
D |
lepton number |
charge |
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