Question 1
Which of the following is not made of quarks?
kaon
muon
neutron
pion
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Question 2
A nucleus of a particular element decays, emitting a series of α and β– particles.
Which of the following series of emissions would result in an isotope of the original element?
1 α and 1 β–
1 α and 2 β–
2 α and 1 β–
2 α and 2 β–
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Question 3
Which equation shows the process of annihilation?
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Question 4
A particular baryon has a quark structure dss and decays by the weak interaction.
What are possible decay products of this baryon?
The quark structure of Λ0 is uds.
Λ0 + π−
n + π−
Λ0 + e−
K+ + K0
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Question 5
What are the products when a free neutron decays?
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Question 6
When α-particles are fired at a thin metal foil, most of the particles pass straight through but a few are deflected by a large angle.
Which change would increase the proportion of α-particles deflected by a large angle?
using α-particles with greater kinetic energy
using a foil made of a metal with fewer protons in its nuclei
using a double thickness foil
using an alpha source with a higher activity
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Question 7
A radioactive nucleus emits a β− particle then an α particle and finally another β− particle. The final nuclide is
an isotope of the original element
the same element with a different proton number
a new element of higher proton number
a new element of lower nucleon number
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Question 8
The diagram shows an area of 0.10 m2 normal to a line connecting it to a point source of
gamma radiation. The source emits photons uniformly in all directions.
The area and the source are separated by a distance of 2.0 m.
The source emits 5,000 gamma photons per second.
How many photons pass through the area every second?
500
250
10
2.5
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Question 9
When a small radioactive source is placed in a cloud chamber, straight tracks about 4 cm long are observed. The same source is placed 10 cm from a Geiger tube and a count rate is detected. When a sheet of aluminium 5 mm thick is placed between the source and the Geiger tube the count rate falls to the background count rate.
Which types of radiation are emitted by the source?
α, β and γ
β and γ
α and γ
α and β
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Question 10
The first artificial radioactive substance was made by bombarding aluminium, with alpha particles. This produced an unstable isotope of phosphorus.
What was the by-product of this reaction?
an α-particle
a β-particle
a γ-ray
a neutron
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Question 11
Which statement about nuclei is correct?
different isotopic nuclei have different proton numbers
for some nuclei, the nucleon number can be less than the proton number
in some nuclear processes, mass-energy is not conserved
nucleon numbers of nuclei are unchanged by the emission of β-particles
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Question 12
Which statement about alpha, beta and gamma radiation is correct?
alpha radiation has the greatest ionising power
beta radiation has the greatest ionising power
gamma radiation has the greatest ionising power
alpha, beta and gamma radiation have nearly equal ionising powers
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Question 13
It was once thought that the mass of an atom is spread uniformly through the volume of the atom.
When α-particles are directed at a piece of gold foil, the results led scientists to believe instead that nearly all the mass of the gold atom is concentrated at a point inside the atom.
Which effect is possible only if nearly all the mass of the gold atom is concentrated at a point?
a few α-particles bounce back
most α-particles are only slightly deflected
some α-particles pass through without any deflection
some α-particles are absorbed
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Question 14
A beam of α-particles collides with a lead sheet. Each α-particle in the beam has a mass of 6.6 × 10–27 kg and a speed of 1.5 × 107m s–1.
5.0 × 104 α-particles per second collide with an area of 1.0 cm2 of lead. Almost all of the α-particles are absorbed by the lead so that they have zero speed after collision.
What is an estimate of the average pressure exerted on the lead by the α-particles?
5.0 × 10–15 Pa
5.0 × 10–13 Pa
5.0 × 10–11 Pa
5.0 × 10–9 Pa
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