8.1.2

Alpha & Beta Radiation

Test yourself

Alpha (α) Radiation

Unstable nuclei emit one of three types of radiation: alpha, beta and gamma.

Illustrative background for Properties of α radiationIllustrative background for Properties of α radiation ?? "content

Properties of α radiation

  • Alpha particles are:
    • Two protons and two neutrons bound together (the equivalent of a helium nucleus).
    • Weakly penetrating.
    • Easily absorbed.
    • Positively charged.
Illustrative background for Properties of α radiation 2Illustrative background for Properties of α radiation 2 ?? "content

Properties of α radiation 2

  • Alpha particles can only be emitted by nuclei with an atomic number greater than 60.
  • Typically, alpha particles cannot penetrate through a sheet of paper or a few mm of air.
Illustrative background for Applications of α radiation Illustrative background for Applications of α radiation  ?? "content

Applications of α radiation

  • An alpha source is used in fire alarms.
    • Alpha particles cannot penetrate through smoke. This is detected and sets off the alarm.

Beta Radiation

Unstable nuclei emit one of three types of radiation: alpha, beta and gamma.

Illustrative background for Properties of β radiationIllustrative background for Properties of β radiation ?? "content

Properties of β radiation

  • Beta particles are:
    • Electrons (or positrons) that are emitted from an unstable nucleus.
    • Moderately penetrative.
    • Either positively or negatively charged.
    • Beta plus particles emitted by proton rich nuclei.
    • Beta minus particles emitted by neutron rich nuclei.
Illustrative background for Applications of beta particlesIllustrative background for Applications of beta particles ?? "content

Applications of beta particles

  • Typically, beta particles cannot penetrate through about 5 mm of aluminium or about 30 cm of air.
  • A beta source is used for gauging the thickness of aluminium sheeting or foil.
  • A beta-plus emitter is used in medical PET scanning.

Radioactivity Safety

All institutions that hold radioactive sources need a permit to do so. The institution will have to follow some local rules about storage and use of sources. Protective measures should include:

Illustrative background for Protective clothingIllustrative background for Protective clothing ?? "content

Protective clothing

  • Wearing goggles and gloves.
Illustrative background for Pointing sources awayIllustrative background for Pointing sources away ?? "content

Pointing sources away

  • Sources should be pointed away from people including yourself.
Illustrative background for Keeping the source at arm's lengthIllustrative background for Keeping the source at arm's length ?? "content

Keeping the source at arm's length

  • Tongs should be used when moving the source.
Illustrative background for Reducing exposure timeIllustrative background for Reducing exposure time ?? "content

Reducing exposure time

  • Put the source away when it’s not in use so as to reduce exposure time.
Illustrative background for Protective boxIllustrative background for Protective box ?? "content

Protective box

  • Keep the source in a lead-lined box.

Jump to other topics

1Measurements & Errors

2Particles & Radiation

3Waves

4Mechanics & Materials

5Electricity

6Further Mechanics & Thermal Physics (A2 only)

7Fields & Their Consequences (A2 only)

8Nuclear Physics (A2 only)

9Option: Astrophysics (A2 only)

10Option: Medical Physics (A2 only)

11Option: Engineering Physics (A2 only)

12Option: Turning Points in Physics (A2 only)

Go student ad image

Unlock your full potential with GoStudent tutoring

  • Affordable 1:1 tutoring from the comfort of your home

  • Tutors are matched to your specific learning needs

  • 30+ school subjects covered

Book a free trial lesson