hazards and uses of radioactivity (topic 4)

Question 1

Answer 1

Question 2

Answer 2

• y
• least ionising
• penetrates through the body
• is a gas so can be breathed in

Question 3

Answer 3

• longer shelf life
• food can be supplied from around the world
• less likely to get food poisoning

Question 3

Answer 3

alpha - stopped by paper
beta - travels 1 metre
gamma - travels at speed of light

Question 4

Answer 4

• higher in village B
• by 6 units

Question 5

describe the structure of the three main types of ionising radiation (3)

Answer 5

• alpha - helium nuclei (or 2 protons and 2 neutrons)
• beta - high speed electron
• gamma - high energy electromagnetic wave

Question 6

explain the precautions that must be taken when handling radioactive materials (2)

Answer 6

• limit the time of exposure
• maintain a safe distance from the source
• use shielding materials such as lead
• handle with tongs
• suitable protective clothing

Question 7

describe how radioactive tracers are used in medical imaging (2)

Answer 7

• radioactive tracer is injected OR radioactive tracer is ingested
• radiation emitted by the tracer is detected, creating an image of the area being examined

Question 8

a patient is given a dose of technetium-99m with an initial activity of 296 MBq, calculate the activity of the tracer after 18 hours

Answer 8

• 18 hours = 3 half lives
• initial activity = 296 MBq
• after 1 half life - 6 hours = 148 MBq
• after 2 half lives - 12 hours = 74 MBq
• after 3 half lives - 18 hours = 37 MBq

Question 9

describe how radioactive substances are used in radiotherapy for cancer treatment (2)

Answer 9

• radioactive sources emit ionising radiation
• that damages cancerous cells (or kill cancer cells)

Question 10

describe how radioactive substances are used in smoke detectors

Answer 10

• alpha particles ionise the air
• creating a current
• this current is interrupted when smoke enters the detector
• triggering the alarm

Question 11

describe the potential safety concerns related to the use of alpha radiation in smoke detectors (2)

Answer 11

• alpha particles are highly ionising
• harmful if ingested or inhaled

Question 12

describe the precautions and safety measures taken to minimise the risks associated with using alpha-emitting sources in smoke detectors (2)

Answer 12

• alpha has a low penetrating capability so wont be able to get outside the smoke detector
• alpha has a very low range in air
• alpha source is enclosed, preventing direct exposure to alpha radiation
• the amount of radioactive material used in smoke detectors is very small

Question 13

describe the relationship between the counts detected and the thickness of the aluminium sheets (2)

Answer 13

• as the thickness increases, the counts detected decrease
• in a non-linear way
• thickness is inversely proportional to the counts detected

Question 14

explain how beta radiation is used to measure the thickness of materials in this application (3)

Answer 14

• radioactive source that emits beta particles is placed on one side of the material
• geiger-Muller tube is placed on the opposite side of the material
• as the thickness varies, the number of beta particles that are detected varies

Question 15

explain how radioactive tracers are used to detect leaks in pipelines (3)

Answer 15

• radioactive material is placed into the pipeline fluid
• detectors placed along the pipeline to monitor the radiation levels outside the pipe
• an increase in radiation levels detected indicates position of a leak

Question 16

Describe the advantages and safety precautions of using radioactive tracers for leak detection in pipelines.

Answer 16

advantages:
- ability to detect leaks in inaccessible or underground pipes
- high sensitivity for leak detection
safety precautions (max 2 marks):
- must use a radioactive isotope with a suitable-half life to prevent unnecessary long term radiation levels
- radioactive sources must be stored in suitable containers such as lead lined boxes
- radioactive sources must be handled with care

Question 17

explain what is meant by background radiation and give one source of background radiation (2)

Answer 17

• low level radiation that is present in the environment at all times
• cosmic rays
• natural radioactive materials in the earth
• human-made sources like medical tracers
• some foods

Question 18

a student places an alpha source near a Geiger-Muller tube and records a count of 185 in 30 s, calculate the corrected count rate (in counts per minute)

Answer 18

Question 19

radium-223 can be put inside the body to treat cancers, radium has a half-life of 11.4 days and emits alpha radiation, explain why radium-223 is suitable for use inside the body to treat cancers

Answer 19

• alpha is highly ionising
• alpha kills cancer cells
• alpha does not penetrate very far in the body
• half-life is long enough for the treatment to take effect
• half-life is short enough that the radiation does not need to be removed (or half-life is short enough that it won’t last very long in the body)

Question 20

Answer 20

9 MBq

Question 21

Answer 21

beta

Question 22

explain what is meant by a half-life of 6 hours (1)

Answer 22

activity of the sample will half every 6 hours (or number of radioactive parent nuclei halves every 6 hours)

Question 23

the radiographer wants the activity of the tracer to be less than 1 MBq after one day, calculate the maximum initial activity of the tracer if it is to have an activity of less than 1 MBq after one day

Answer 23

• number of half lives = 24 ÷ 6 = 4
• activity after 4 half lives = 1 MBq
• activity after 3 half lives = 2 MBq
• activity after 2 half lives = 4 MBq
• activity after 1 half life = 8 MBq
• initial activity = 16 MBq

Question 24

explain why alpha emitters are not used as tracers for medical imaging (3)

Answer 24

• alpha is highly ionising
• alpha can kill healthy cells
• alpha would not be detected outside the body as it has a low penetrating ability

Question 25

(3)

Answer 25

• alpha radiation is not suitable as it is absorbed by the plastic
• beta radiation is suitable as it shows a clear and gradual decrease in counts detected as the thickness increases
• gamma radiation is less suitable than beta, as it shows a smaller change in counts detected
• gamma is less sensitive to variation in thickness

Question 26

describe how the workers at the factory could correct their recorded value to account for background radiation (factory uses radiation to monitor the thickness of plastic sheets) (3)

Answer 26

• record the count for a set period of time with no source present
• record the count with sources present for the same period of time
• corrected count = count - background count

Question 27

the factory records the background radiation to be 1 count per second, the factory wants to maintain a plastic sheet thickness of 1.5 mm, calculate the corrected count for beta radiation to ensure the desired thickness is maintained

Answer 27

• background count in one minute = 1 x 60 = 60 cpm
• corrected count = 170 - 60 = 110 cpm