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Radioactive Decay | Physics for Grade 10 PDF Download

Unstable Nuclei

  • Some atomic nuclei are unstable
  • This is because of an imbalance in the forces within the nucleus
    • Forces exist between the particles in the nucleus
  • Carbon-14 is an isotope of carbon which is unstable
    • It has two extra neutrons compared to stable carbon-12
      Carbon-12 is stable, whereas carbon-14 is unstable. This is because carbon-14 has two extra neutrons
      Carbon-12 is stable, whereas carbon-14 is unstable. This is because carbon-14 has two extra neutrons
    • Some isotopes are unstable because of their large size or because they have too many or too few neutrons

Radiation

  • Unstable nuclei can emit radiation to become more stable
  • Radiation can be in the form of a high energy particle or wave
    Unstable nuclei decay by emitting high energy particles or waves
    Unstable nuclei decay by emitting high energy particles or waves
  • As the radiation moves away from the nucleus, it takes some energy with it
    • This reduces the overall energy of the nucleus
    • This makes the nucleus more stable
  • The process of emitting radiation is called radioactive decay
  • Radioactive decay is a random process
    • This means it is not possible to know exactly when a particular nucleus will decay

Tips

  • The terms unstable, random and decay have very particular meanings in this topic. Remember to use them correctly when answering questions!
  • Do not confuse activity and count rate. Activity is the rate at which unstable nuclei decay, whereas count rate is the rate at which radioactive emissions are detected.

Activity

  • Objects containing radioactive nuclei are called sources of radiation
  • Sources of radiation decay at different rates which are defined by their activity
  • The activity is defined as
    • The rate at which the unstable nuclei from a source of radiation decays
  • Activity is measured in Becquerels
    • The symbol for Becquerels is Bq
  • 1 Becquerel is equal to 1 nucleus in the source decaying in 1 second

Example: A source of radiation has an activity of 2000 Bq. How many unstable atoms decay in 2 minutes?

Step 1: Determine the activity

  • The activity of the source is 2000 Bq
  • This means 2000 nuclei decay every second

Step 2: Determine the time period in seconds

  • The time period is 2 minutes
  • Each minute has 60 seconds
  • The time period in seconds is:
    2 × 60 = 120 seconds

Step 3: Multiply the activity by the time period
Activity (Bq) × Time period (s) = 2000 × 120 = 240 000
Therefore, 240 000 unstable nuclei decay in 2 minutes

Detecting Radiation

  • Radiation that is emitted from an unstable nucleus can be detected in different ways
    • For example, photographic film changes colour when exposed to radiation
  • A Geiger-Muller tube is a device used to detect radiation
    This Geiger-Muller Tube is connected to a Geiger Counter. This a common way of detecting radiation and measuring a count-rate
    This Geiger-Muller Tube is connected to a Geiger Counter. This a common way of detecting radiation and measuring a count-rate
  • Within the Geiger-Muller tube, ions are created by radiation passing through it
  • The Geiger-Muller tube can be connected to a Geiger counter
  • This counts the ions created in the Geiger-Muller tube
  • Count-rate is the number of decays recorded each second by a detector

Example: A Geiger-Muller tube is used to detect radiation in a particular location. If it counts 16,000 decays in 1 hour, what is the count rate?

Step 1: Identify the different variables

  • The number of decays is 16 000
  • The time is 1 hour

Step 2: Determine the time period in seconds

  • 1 hour is equal to 60 minutes, and 1 minute is equal to 60 seconds
    Time period = 1 × 60 × 60 = 3600 seconds

Step 3: Divide the total counts by the time period in seconds
Counts ÷ Time period = 16 000 ÷ 3600 = 4.5
Therefore, there are 4.5 decays per second

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