Revision/Nuclear Chemistry, Types and Nature of Radiations, Half-life as a Measure of the Stability of the nucleus

Nuclear Chemistry


  • Types and Nature of Radiation
  • Half-life as a measure of the stability of the nucleus.


Nuclear Chemistry is an aspect of chemistry that deal with nuclei of atoms.



This is the spontaneous emission of radiation by radioactive element such as Thorium, Uranium etc.



  1. Spontaneously and continually emitting of radiation by radioactive element
  2. Temperature and pressure have no effect on radioactivity
  3. The radiation can pass through opaque objects
  4. It affects photographic plates
  5. It causes ionization of gases through which it passes.
  6. It causes fluorescence of certain substance
  7. It releases large amount of energy.


Types of Radiation

There are three (3) types of radiation

  1. Alpha
  2. Beta
  3. Gamma


Characteristics of Alpha-Rays

  1. they are Helium in nature 42He with 4 atomic mass and 2 atomic number
  2. alpha rays are fast moving streams of positively charges
  3. they are deflected toward the negative plate in an electrostatic field
  4. they have very low penetrating power
  5. they can be absorbed/stopped by a thin sheet of paper on Aluminium foil
  6. they cause fluorescence of some materials e.g Zinc Sulphide


Characteristics of Beta-rays

  1. they are electron in nature with a mass number of zero and charge of -1 (oe)
  2. they are fast moving  stream of electrons
  3. they can penetrate than alpha rays


Effects of Electrostatic Field on the Three Radiation



  1. State two (2) properties of ά, β, and Y rays each.
  2. What do you know about radioactivity?



Detection of Radiation

The radiation can be detected by using the following devices.

  1. Geiger Miller Counts
  2. Scintillation counter
  3. Diffusion cloud chamber



The half-life of a radioactive element is the time taken for half of the actual number of atoms in a given substance or radioactive element to decay.



The spontaneous disintegration/decay of nucleus of an element is due to its instability.

The neutron-proton ration determines the stability of an element.

This varies between unity for the lighter elements and a value of about 1.5 for the heavier element with atomic numbers around eighty.

N.B. Atoms with a neutron – protons less than 1 or greater than 1.5 tends to be unstable.



  1. State two methods through which a radiation can be detected.
  2. What is half life as a measure of the stability of the nucleus



  1. Define the term nuclear chemistry
  2. Define the term radioactivity.
  3. Explain the term radioisotopes
  4. Give an account of the uses of radioisotopes.



New School Chemistry by O.Y, Ababio pages 299-304.



  1. ____ is an example of radiation (a) Aloha (b)  Carbon (c) Uranium (d) Nucleus.
  2. Alpha particle was deflected towards negative plate while Beta deflected toward (a) Neutral plate (b) Negative plate (c) Zero plate (d) positive plate
  3. The following caused fluorescence of matter except (a) Alpha (b) Beta (c) Gamma (d) X- ray

4. In the above diagram, Z represents (a) Alpha          (b) Beta (c) Gamma (d) Radioactive

5. B represents ____ in the diagram above (a) Alpha (b) Beta (c) Gamma (d) Radioactive source



  1. Find the half-life of a radio isotope element which was found to be 120g initially and later changed to 15g in 24 hours
  2. State the three main type of radiation with their properties each.


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