Production, uses and risks of ionising radiation from radioactive sources Flashcards
explain the social and ethical issues relating to the use of radioactive techniques in medical physics
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Describe the properties of alpha radiation
+2 charge, 4 mass, heavily ionising, low penetrating, affected by magnetic field
Describe the properties of beta (B-) radiation
-1 charge, 1/1840 mass, weakly ionising, low penetration stopped by thin aluminium, affected by magnetic field
Describe the properties of gamma radiation
0 charge, 0 mass, not directly ionising, very high penetration, stopped only by thick led, not affected by magnetic field
Describe the properties of positron (B+) radiation
+1 charge, 1/1840 mass, weakly ionising, low penetration, stopped by thin aluminium, affected by magnetic field
Describe the properties of neutron radiation
0 charge, 1 mass, not directly ionising, high penetration, not affected by magnetic field
explain why a atom has a neutral charge
has the number of protons and electrons. this means it has the same number of positive and negative charge, so the atom is neutral
Describe the process of B- decay
a neutron within an unstable nucleus decays to give a proton and an electron; this electron is emitted at high speed as a beta particle
Describe the process of B+ decay
a proton in the nucleus decays to a neutron and a positron; the positron is ejected from the nucleus at high speed carrying +1 charge away but having almost no effect on the mass of the nucleus
Explain the effects on the atomic (proton) number and mass (nucleon) number of radioactive decays
alpha: mass number -4, charge of nucleus -2
beta-:mass of nucleus no change, effect on charge of the nucleus increased by 1
beta+: mass of nucleus no change, charge of nucleus reduced by 1
gamma: no effect on either mass or overall charge of a nucleus
Use given data to balance nuclear equations
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Describe the features of the N-Z curve for stable isotopes
shows the ratio between the number of neutrons (N) and the number of protons (Z) in the nucleus.
Identify isotopes as radioactive from their position relative
to the stability curve
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nuclei with high values of Z (above 82) undergo what decay
nuclei with high values of Z (above 82) usually
undergo alpha decay
an isotope above the curve will do what
an isotope above the curve has too many neutrons to be stable and will undergo decay
an isotope below the curve will do what
an isotope below the curve has too many
protons to be stable and will undergo B+ decay
what do the proton and neutron each contain
the proton and neutron each contain three particles called quarks
Describe the arrangement of up and down quarks in
protons and neutrons
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Use given data to explain the arrangement of up and
down quarks in protons and neutrons in terms of charge
and mass
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Explain B- decay
a process that involves a down quark changing into an up quark (a neutron becomes a proton and an electron)
Explain B+ decay
a process that involves an up quark changing into a down quark (a proton becomes a neutron and a positron)
nuclei that have undergone radioactive decay do what
nuclei that have undergone radioactive decay often undergo nuclear rearrangement with a loss of energy as gamma radiation
Describe the dangers of ionising radiation in terms of tissue damage and possible mutations
ionising radiation can kill cells. if small numbers of cells are killed the organism can recover by replacing destroyed cells. if large numbers of cells are destroyed by exposure to large doses of ionising radiation, then the organism cannot recover. can also cause mutations in the DNA in cells. in this case the ionising radiation does not kill the cell but it makes it work different way. it may cause the cell to grow uncontrollably causing a tumour.
Explain the precautions taken to ensure the safety of people exposed to radiation, including limiting the dose for patients and the risks to medical personnel
wearing protective clothing, increasing the distance form the source for ionising electromagnetic radiation, and reducing length of exposure
