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LESSON DEVELOPMENT

                            ACTIVITY 1

Go through the explanation below on the properties of radiations and answer the question in the evaluation section.

Properties of radioactive emissions

  1. Alpha (α) particles

They are represented as42He. Hence with a nucleus number 4 and a charge of +2.

   Properties

  1. Their speeds are 1.67 × 107 m/s, which is 10% the speed of light.
  2. They are positively charged with a magnitude of a charge double that of an electron.
  3. They cause intense ionization hence loosing energy rapidly hence they have a very short range of about 8 cm in air.
  4. They can be stopped by a thin sheet of paper, when stopped they capture two electrons and become helium gas atoms
  5. They can be affected by photographic plates and produce flashes when incident on a fluorescent screen and produce heating effect in matter.
  6. They are slightly deflected by a magnetic field indicating that they have comparatively large masses.
  1. Beta (ϐ) particles

They are represented by e01 .Meaning ,they have no charge but have a mass of 1. e01

                           Properties

  1. Their speeds are as high as 99.9% or more the speed of light
  2. They are deflected by electric and magnetic fields but in a direction opposite to that of alpha particles.
  3. Due to their high speed they have a higher penetrative rate than alpha particles (about 100 times more)
  4. They can be stopped by a thin sheet of aluminium
  5. Their ionization power is much less intense about 1/100th that of alpha particles.

 

  1. c) Gamma (ϒ) particles

They have very short wavelengths in the order of 10-10 m and below.

                           Properties

  1. They travel at the speed of light.
  2. They have less ionization power than that of both alpha and beta particles
  3. They accompany the emission of alpha and beta particles
  4. They carry no electric charge hence they are not deflected by both electric and magnetic fields. 

                           ACTIVITY 2

Watch the video clip below on the various properties of Alpha, Beta & Gamma rays and answer the questions that follow at the Evaluation section.