Radiation emission Flashcards

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1
Q

What are the types of radiation emissions?

A

Alpha particle
Beta positive (beta +ve)
Beta negative (beta -ve)
Gamma rays

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2
Q

What is the structure of an alpha particle?

A

2 protons and 2 neutrons

Large mass

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3
Q

Properties of alpha particle

A
High energy (high damage)
Short-range (due to high mass)
Densely ionizing
High linear energy transfer (LET)
Positive charge
Influenced by electrical and magnetic fields
Rest mass 3725 MeV
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4
Q

How do alpha particles occur?

A
Radioactive decay (unstable atom) disintegrates and emits alpha and gamma rays (energy) to become stable.
It kicks out neutrons and protons.
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5
Q

Example of alpha particle being produced?

A

226/88 Ra = 222/86 Rn + 4/2 a
Notice the decrease in mass/atomic numbers
Radon to radium

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6
Q

How is beta -ve produced?

A

Produced by a nucleus with too many neutrons
Neutrons transform into proton and β- particle and antineutrono
antineutrono (no mass, no charge)

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7
Q

How is beta +ve produced?

A

Produced by a nucleus with too many protons, too few neutrons
Proton transform into a neutron and β+ particle and neutrino
neutrino (no mass, no charge)

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8
Q

Example of beta -ve

A

99/42 Mo = 99/43 Tc + β- + u

Gains a proton

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9
Q

Example of beta +ve

A

18/9 F = 18/8 O + β+ + u

Loses a proton

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10
Q

Properties of beta particles

A

High energy
Greater range than alpha particles
Are a charged particle (positive or negative)
Need approximately 4 mm of aluminum to stop them – depending upon the energy
Can be influenced by electrical and magnetic fields
Cause localized tissue damage

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11
Q

How are gamma rays produced?

A

Following the emission of a particle from the nucleus, the daughter nucleus is left in an excited state
The nucleus sheds this excess energy in order to achieve stability
Gamma-ray emission is almost instant following particle emission except in isomeric (metastable) transition

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12
Q

Uses of gamma rays

A

Gamma ray emission is important in metastable elements because it allows imaging of the patient with a relatively low radiation dose

Gamma ray emission at high energies allows radiotherapy sealed source treatment for localised tumours e.g. Iridium, Tantalum, Caesium

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13
Q

What are isomers?

A

Same atomic number but different energy levels.

Add an m next to mass number to identity these

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14
Q

Properties of gamma rays.

A

Have no charge
Not affected by electrical or magnetic fields
Less destructive than alpha or beta particles generally have a lower LET
More penetrating than alpha or beta particles
Need a heavy metal (Lead) to attenuate them (5cm For Co60)

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15
Q

What is a decay scheme?

A

Decay schemes are diagrams/graphs to show energy emission represent either positive or negative beta decay processes

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16
Q

What is the unit of measurement for radioactivity?

A

1 BEQUEREL = 1 TRANSFORMATION PER SECOND