Core Practical: Investigating Radiation (Edexcel IGCSE Science (Double Award))

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Ashika

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Ashika

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Core practical 13: investigating radiation

Aim of the experiment

  •  The aim of this experiment is to investigate the penetration powers of different types of radiation using either radioactive sources or simulations

Variables:

  • Independent variable = Absorber material

  • Dependent variable = Count rate

  • Control variables:

    • Radioactive source

    • Distance of GM tube to source

    • Location / background radiation

Equipment List

Equipment

Purpose

radioactive sources (α, β and γ)

to use as a source of radioactive emission

ruler

to measure the distance between the source and detector

mount for radioactive source

to secure the source in place

Geiger-Muller tube and counter

to measure the count rate of a radioactive source

tongs

to safely handle the sources at a distance

selection of absorbing materials (paper, aluminium foil, lead)

to place between the source and detector to investigate effect on count rate

lead-lined containers for radioactive sources

to store sources in when not in use

 

  • Resolution of measuring equipment:

    • Ruler = 1 mm

    • Geiger-Müller tube = 0.01 μS/hr

Method

Investigating Radiation Apparatus, downloadable IGCSE & GCSE Physics revision notes

Apparatus for investigating the penetrating powers of different types of radiation

  1. Connect the Geiger-Müller tube to the counter and, without any sources present, measure background radiation over a period of one minute

  2. Repeat this three times, and take an average. Subtract this value from all subsequent readings.

  3. Place a radioactive source a fixed distance of 3 cm away from the tube and take another reading of count rate over a period of one minute

  4. Take a set of absorbers, i.e. some paper, several different thicknesses of aluminium (increasing in 0.5 mm intervals) and different thicknesses of lead

  5. One at a time, place these absorbers between the source and the tube and take another reading of count rate over a period of one minute

  6. Repeat the above experiment for other radioactive sources

Analysis of results

  • If the count rate is similar to background levels (allowing for a little random variation), then the radiation has all been absorbed

    • Note: some sources will emit more than one type of radiation

  • If the count rate reduces when paper is present, the source is emitting alpha

  • If the count rate reduces when a few mm of aluminium is present, then the source is emitting beta

  • If some radiation is still able to penetrate a few mm of lead, then the source is emitting gamma

Radiation Stopping Distances, downloadable AS & A Level Physics revision notes

 Penetrating power of alpha, beta and gamma radiation

Evaluating the experiment

Systematic Errors:

  • Make sure that the sources are stored well away from the counter during the experiment

  • Conduct all runs of the experiment in the same location to avoid changes in background radiation levels

Random Errors:

  • The accuracy of such an experiment is improved with using reliable sources with a long half-life and an activity well above the natural background level

Safety considerations

  • When not using a source, keep it in a lead-lined container

  • When in use, try and keep a good distance (a metre or so) between yourself and the source

  • When handling the source, do so using tweezers (or tongs) and point the source away from you

Examiner Tips and Tricks

When answering questions about the core practicals you could try to remember the acronym SCREAMS:

  • S: Which variable will you keep the same

  • C: which variable should you change

  • R: what will you do to make your experiment reliable

  • E: what special equipment and equations are required

  • A: how will you analyse your results

  • M: which variable will you measure

  • S: what safety precautions will you take?

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Ashika

Author: Ashika

Expertise: Physics Project Lead

Ashika graduated with a first-class Physics degree from Manchester University and, having worked as a software engineer, focused on Physics education, creating engaging content to help students across all levels. Now an experienced GCSE and A Level Physics and Maths tutor, Ashika helps to grow and improve our Physics resources.