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Is noise a problem in your workplace
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More information on Vibration
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Asbestos
Asbestos - in the workplace
Asbestos - what is it?
Asbestos - in the home
Biological Hazards
Biological Agents
Mould
Anthrax
Chemicals
Welding - what are the issues?
Hazardous Substances (Chemicals)
Dangerous Goods
Hazardous Substances - An introduction to Legislation
Dangerous or Hazardous? What's the difference?
Chemicals management in workplaces
Material Safety Data Sheets
Exposure Standards for Chemicals
Chemicals - Useful websites
Cancer - what causes it?
Occupational cancer and Workers’ Memorial Day
Dust masks - how effective are they?
Dermatitis & other skin conditions
Multiple Chemical Sensitivity
Exposure Standards - what are they?
Common Hazardous Substances in the Workplace
Exhaust fumes - how dangerous are they?
Arsenic
Carbon Monoxide
Cytotoxic drugs
Diesel - declared carcinogen
Environmental Tobacco Smoke
Latex
Lead
Silica
Solvents
Chemicals and contact lenses
Perfumes and scents: chemicals too!
Glutaraldehyde
Formaldehyde
Infectious Diseases
General information on Infectious Diseases
Needlestick Injuries
Air Conditioning & Legionnaires Disease
Legionnaires disease
Hepatitis A
Hepatitis B
Hepatitis C
Human Immunodeficiency Virus/HIV
Tuberculosis
Staphylococcus - the 'superbug'
Infectious Diseases: More information
Influenza
COVID-19
COVID-19: masks and face coverings
COVID-19 Victorian Situation
COVID-19 Vaccines
COVID-19: Rapid Antigen Testing in Your Workplace
Nanotechnology
Nanotechnology - a new hazard
Nanotechnology - proposed legislation
Nanotechnology - further reading and references
Noise
Why is noise a problem?
Is noise a problem in your workplace
Noise Exposure Standard
More information on Noise
Vibration
Causes of Vibration
Effects of Vibration
Legal Standards for Vibration
Vibration - Action plan
More information on Vibration
Victorian Trades Hall Vibration Standard
Air Quality
Asthma

What is Radiation?

Radiation [or Electromagnetic Radiation (EMR), is energy in a wave form. It is described by its frequency (measured in hertz) and its wavelength (measured in metres).   Sometimes it is referred to as Electromagnetic Energy (EME).

An Electromagnetic Field (EMF) is made up of an electric field and a magnetic field. Electrical fields occur whenever there is a voltage - the higher the voltage, the stronger the electric field. These are measured in volts per meter (V/m). Magnetic fields occur where there is a current - the greater the current, the stronger the magnetic field. A magnetic field only exists when the current is switched on. Magnetic fields are measured in units of gauss (G). Both the fields become weaker the further away from the source.

EMFs occur naturally and also come from sources created by human activity. Natural EMFs comes from sources such as the earth's own magnetic field, electrical storms, the sun and even the body's own essential electric activity. These natural EMFs are of a very low strength. Manufactured EMFs, which have higher frequencies, come from overhead power lines, electric wiring in buildings, radio towers, laser tools, and so on. It is these that are of more concern.

Radiation can potentially interfere with the body and cause harm. Frequency and wavelength are used to classify different types of radiation. The electromagnetic spectrum spans a wide range of frequencies and wavelengths, from extra-low frequency (for example from the electric power supply) to extremely high frequency (X-rays).

EMR can be either ionising or non-ionising:

Non-ionising Radiation

Non-ionising radiation is made up of low frequency, long wavelength and low energy electromagnetic waves. It includes ultraviolet light, visible light, infrared light, radiofrequency, very-low and extra-low frequency radiation. Manufactured sources include photocopiers; welding equipment; TV, radio and telecommunication transmission towers; mobile phones; microwaves; visual display units; power lines.

Non-ionising Radiation Spectrum
Long waves/low frequency  ---------> shorter waves/higher frequency
Extra Low(ELF) Very Low(VLF) Low Radio Frequency Infrared(IR) Visible Light Ultraviolet
TV & computer screen fields, electric power supply, communication services TV & Radio transmissions, Microwave, mobile phones Radar Document copying, Electric welding, sunlight
Lasers

There is a separate page on this website with more information on non-ionising radiation, including health effects and an Action Plan for OHS Reps.

Ionising Radiation

This radiation is high frequency and high-energy and can penetrate the body. It has enough energy to break up atoms and molecules as it passes through the body (ie, it can cause ionisation). This radiation includes cosmic rays, X-rays and gamma rays, as well as particles emitted from radioactive materials. Manufactured sources include industrial and medical radiography and testing equipment.

 

Ionising Radiation
Very short wavelengths, very high frequency
Alpha & Beta Particles X - Rays Gamma Rays
Lasers (lower end), industrial and medical radiography and testing equipment

There is a separate page on on this website with more information on ionising radiation - including health effects and an Action Plan for OHS Reps.

Measurement

With lower frequency, longer wavelength radiation, the dose is often measured in terms of the strength of the field (in Gauss or milliGauss). With higher frequency radiation, the dose is described in terms of energy absorbed by the body (in Sieverts).

This means that units of measurement vary with the different types of radiation, and that there is no single instrument that can measure the intensity of EMR right across the spectrum.

What are the health effects of exposure to Radiation?

The health effects of radiation vary with the type of radiation and the dose received. Higher frequencies can cause changes to the body's cells. As the frequency decreases, there are health effects related to the heating of body tissues - but there is growing evidence that there are negative health effects which are not related to heating.

Some health effects of radiation (particularly ionising radiation) are well known and researched. This is partly due to nuclear warfare and radiation accidents. The health effects of exposure to ionising radiation are serious, including cancer and death.

However there is a great deal of controversy regarding the potential health effects of some types of non-ionising radiation. There is no doubt that UV radiation causes cancer, but the effects of lower frequency radiation (for example radiation from mobile phones, power lines, electric equipment) are not well known. The truth is that no-one really knows exactly how dangerous some forms of radiation are. There are various reasons for this: the effects may be small and difficult to detect, we are all exposed to various types of radiation in our daily lives, and not enough research has been done.

 
More information on:

Last amended October 2018