Ontario English Catholic Teachers Association OPPOSES WI FI IN SCHOOLS
Why? Because our children are being microwaved with the same frequency that is used in microwave ovens. Would you place your child in a microwave oven? Does anybody take their faces away from their own screens enough or their cell phones away from their own heads to care about this impending debacle facing our kids??
A position regarding the use of
Radiation, including WiFi, in the
Health and Safety Committee
Table of Contents
What is Non-Ionizing Electromagnetic Radiation? 2
Health Canada's Position 2
The World Health Organization and Other Jurisdictions 2
Exposure Increases with Use 4
Effects From Exposure 4
Electromagnetic Hypersensitivity 4
Environmental Sensitivity is a Disability 5
Role of the Joint Health and Safety Committee 5
Hazard Control and Prudent Avoidance 5
Appendix - Occupational Health and Safety Act 8
There are growing health and safety concerns regarding the widespread use of technology,
such as cellular phones and wireless computer networking (WiFi), which produce non-ionizing
electromagnetic radiation. It is estimated that at least 3 percent of the population has an
environmental sensitivity to the radiation that is emitted by these devices and, as a result,
experience serious immediate physical/biological effects when exposed. As has been the case
with other known societal health and safety issues, such as exposure to cigarette smoke or
asbestos, the health effects of unprecedented long term exposure to this radiation may not
be known for some time. Widespread use of, or exposure to, wireless communication devices
and WiFi technology in Ontario schools, can be positioned as a potential workplace hazard.
This paper examines what is currently known about the impact of non-ionizing
electromagnetic radiation, reviews the implications it can have for Ontario schools, including
OECTA members, and makes recommendations to the Ontario English Catholic Teachers'
Association on the issue.
What is Non-ionizing Electromagnetic Radiation?
Non-ionizing electromagnetic radiation is part of the low frequency/energy and longer
wavelength electromagnetic spectrum. The subset of the non-ionizing electromagnetic
radiation spectrum that is discussed in this paper occurs below the visible light spectrum and
is created by human technological intervention and is not usually created to any major extent
by natural processes. Non-ionizing radiation was traditionally thought to be of no harm
because it is of low enough energy that an ionizing effect, a process known to cause
immediate damage to the human tissue and DNA (cancer causing), does not occur. Familiar
forms of non-ionizing electromagnetic radiation are; the visible spectrum, infrared (heat),
radio/television and radar/microwave. Most of our wireless communications devices including
cellular/home wireless (DECT) phones and WiFi use non-ionizing electromagnetic radiation in
the microwave frequency band.
Health Canada's Position
Health Canada has deemed that the low levels of this microwave radiation, which are emitted
through such vehicles as cell phones and WiFi, are safe because they are below the threshold
limit values (TLV) that have been set in their standard called Safety Code 6 (SC6) Guideline
of 1000 μW/cm2, (pronounced micro watts per centimetre squared) for microwave radiation.
As long as exposure is below the SC6 threshold, Health Canada considers the radiation to be
The SC6 guideline is based on a short-term (6-minute average) exposure in an adult male.
As such, it does not take into consideration longer-term exposure or effects on slighter
individuals and young children. SC6 considers only thermal (heat based) tissue effects and
does not consider other biological effects of this radiation to assess safety. Furthermore, SC6
Guidelines are also only intended for federal buildings and do not necessarily apply to
The World Health Organization and Other Jurisdictions
On May 31, 2011, the World Health Organization's (WHO) International Agency for Research
on Cancer (IARC) classified radiofrequency electromagnetic fields as a class 2b carcinogen
(possibly carcinogenic or cancer causing to humans). They citied biological effects recognized
in adult cellular telephone studies for their decision. This categorization by the WHO
prompted Health Canada to issue an advisory calling for prudent avoidance of cellular phone
use among children and youth. No long term studies have been done regarding mobile
phones on children or regarding WiFi on adults or children.
Other countries have more stringent guidelines than Canada. For example in Russia,
exposure to 1000 μW/cm2 (SC6 Guideline for microwave radiation, which includes WiFi) is
only allowed for 15 minutes per day. In Canada, children can be exposed all day and every
day to this level. The Czech guidelines for pulsed microwave radiation, which is known to be
more harmful than non-pulsed radiation, allow exposure to 4 μW/cm2for a 6-hour day (school
day) which is only 0.4 percent of the SC6 Guideline.
Switzerland, China, Hungary and Poland also all have stricter guidelines than Canada. Their
guidelines are stricter because they are not solely being based on heating of the body. They
also include consideration of other biological, such as changes in calcium flux, changes in the
permeability of the blood-brain barrier and damage to DNA.
Exposure Increases With Use
When a WiFi network is turned on, any radiation exposure would be only due to the radiation
emitted from the wireless transmitter's beacon signal, with little or no use of clients on the
wireless network. Each wireless device that connects to the network is a new non-ionizing
radiation emitter that opens a new exposure stream over and above the beacon signal
strength, which will add to the overall exposure of anyone in the nearby field. Often, testing
done to measure the impact of the radiation from the wireless network is done based on the
transmitter's beacon signal only, and does not take into consideration the impact of having
multiple clients on the network at the same time. If the long-term goal is to encourage
widespread use of the wireless network by personal electronic devices such as IPads, IPods,
smartphones as well as notebooks or laptop computers, then exposure levels to this radiation
will be unpredictable and higher than simple measurements would imply.
If 'safe' implementation is based on emissions being lower than Health Canada's SC6 TLV of
1000 μW/cm2 then employers must ensure that this limit is not breached through a hazard
control program that should include periodic field monitoring. This type of monitoring
program is the jurisdiction of the JHSC as described in the OHSA S. (9)(18).
Effects from Exposure
There are reports of a number of immediate biological effects that are experienced with
exposure, such as; headaches, nausea, dizziness, difficulty concentrating, weakness,
pressure in the head, and a racing or fluttering heart (tachycardia). Moreover, students are
considered to be more susceptible to microwave radiation because of their age and their
earlier stages of development.
Implementation of WiFi technology in schools will produce unprecedented exposure to
microwave radiation of approximately 6 hours each school day, 5 days a week, for 40 weeks
each year. This will be without any studies being done to determine the effects of either the
short-term or long-term effects of this microwave exposure on adults as well as children.
A portion of the population are estimated to be affected in some way by an environmental
sensitivity called electro-hypersensitivity, which is an increased sensitivity to non-ionizing
radiation, and may become ill when WiFi is initialized.
"Approximately 3 percent of the population (over 1 million Canadians) has been
diagnosed with environmental sensitivities (ES) which include multiple chemical
sensitivities (MCS) and electromagnetic sensitivity."
1 Park J and Knudson S. Medically Unexplained Physical Symptoms. Statistics Canada. 12-1-2007.
Some studies show that adults who are electrically sensitive react to this frequency (2.4 GHz)
at levels 0.3 percent of SC6 Guidelines.2
The reactions include heart irregularities, a rapid heart rate and changes to the regulation of
both the sympathetic and parasympathetic nervous system. These are biological effects and
do not involve microwave heating to the body.
Unlike with other forms of hypersensitivity, peanuts for example, the general public may not
yet associate any of these symptoms with exposure to non-ionizing radiation such as WiFi.
Sufferers feel unwell and attribute their state to some other cause. Currently our workplaces
are smoke-free and nut-free regardless of the minority of the population being affected.
Environmental Sensitivity is a Disability
Environmental Sensitivity, including electro-hypersensitivity, is recognized as a disability
under the Canadian Human Rights Code. As such, all workplaces, including educational
institutions (schools) have a duty to accommodate students and staff diagnosed with
Employers have a duty to accommodate persons with environmental sensitivities under the
Canadian Human Rights Code as well as the Accessibility for Ontarians with Disabilities Act
Role of the Joint Health and Safety Committee
Any potential hazard in the workplace falls under the power and the jurisdiction of the Joint
Health and Safety Committee(s) (JHSC), as established in S. 9(18) of the Occupational
Health and Safety Act (OHSA) - see appendix A. It is within the powers of the Joint Health
and Safety committee for each workplace to identify potential hazards and make
recommendations for the establishment of hazard control programs to address hazards in the
Joint Health and Safety Committees have the ability to include all potential hazards, such as
non-ionizing electromagnetic radiation, in a hazard control program developed for the
workplace. These hazard control programs are developed locally to oversee the application
and monitoring of appropriate control measures to minimize worker injury.
Hazards are required to be eliminated where possible or at least have the risk of injury
reduced by the application of controls. A hazard control program can be established to
address the potential for injury from non-ionizing radiation, including WiFi.
Hazard Control and Prudent Avoidance
2 Havas et al, "Provocation Study Using Heart Rate Variability Show Microwave Radiation from 2.4 GHz
Cordless Phone affects autonomic nervous system," Eur. J. Oncol. Library Vol. 5. 3 Canadian Human Rights Commission. Legislation and Policies: Policy on Environmental Sensitivities.
June 15, 2007. www.chrc-ccdp.ca/legislation_policies/policy_environ_politique-en.asp
4 Ontario Human Rights Commission (OHR): Guidelines on Accessible Education at
CREATING.html#Heading262 (see "Accounting for Non-Evident Disabilities").
Wilkie, C. & Baker, D., "Accommodation for Environmental Sensitivities: Legal perspective,"
Canadian Human Rights Commission, May 2007
Administrative and physical controls are most effective when applied at the source of the
hazard. Controls gradually decrease in effectiveness as you move along the path of the
hazard, with the least effective being at the worker level (wearing personal protective
equipment). Controls for WiFi would best be guided by the ALARA principle (As Low As
Reasonably Achievable), as well as by applying the concept of prudent avoidance (of nonionizing
radiation). Section 25 (2)(h), of the OHSA states "An employer shall take every
precaution reasonable in the circumstances for the protection of a worker".
Examples of prudent avoidance control measures may include, but need not be limited to:
The continued use of wired technology as most existing buildings are currently wired
Ensuring new buildings/construction includes a fully wired Ethernet infrastructure.
Where new network connections are required, add to the existing wired network by
running new wiring to that location. It is still less expensive to add the odd Ethernet
drop each year than to add a completely redundant wireless system to the entire
Where new wired locations are not practical, consider using a PowerLine HD Ethernet
Adapter (or similar technology) to pass a network signal through existing electrical
D-Linkฎ is just one manufacturer that offers
PowerLine Ethernet Adapters that allow the use of
existing electrical wiring to act as Ethernet wires
to create or extend a network by turning every
power outlet in to a potential ethernet port.
Where a wireless connection is required, use single application wireless routers (similar
to home use wireless routers) which can be temporarily connected to an existing
Ethernet port within the room/area, eliminating the need to permanently wire a router.
A classroom or conference room can be made wireless for only the class/conference
Pre-plan the deployment of permanently installed wireless routers such that they can
be easily recognized and turned on or off, either manually or electronically, to provide
access only when necessary.
Consider placing wireless routers to service smaller zones so that use in one area does
not produce undue exposure in others. Create 'WiFi enabled areas' (and therefore 'WiFi
disabled areas') such as in libraries or cafeterias that provide limited scheduled access
to the network if necessary.
Other components of a control program may include but need not be limited to:
Labelling of all transmitter locations - Workers have the right to know about potential
A maintenance/monitoring program for the wireless access points to ensure no over
powering or excessive emissions occur. The JHSC has a duty to monitor exposure of
existing WiFi installations because exposure during peak use, with most clients
connected, should not exceed the SC6 TLV of 1000 μW/cm2.
1. We do not know what the long-term effects of low-level non-ionizing radiation are on
those who are exposed (workers and students). No form of radiation can be deemed
'safe' as it depends on the constitution of the individual exposed, the amount of
exposure as well as a sufficient amount of time to pass to observe any health effects
that have a long latency period (i.e. cancer).
2. The WHO has classified low-level non-ionizing radiation in the microwave band
associated with celluar phones as a class 2b carcinogen (possible carcinogen) and
Health Canada has warned about limiting the use of handheld personal electronic
equipment such as cellular phones among youth. Initializing WiFi for personal
electronic equipment will result in an unpredictable exposure as use varies.
3. A segment of the population are environmentally sensitive (a disability according to
the Canadian Human Rights Commission) to low level non-ionizing radiation and may
experience immediate physical/biological reactions when exposed.
4. Employers including School Boards have the duty to accommodate persons with
disabilities including that of electro-hypersensitivity. A widespread investment in a
redundant WiFi network may limit the ability to reduce WiFi exposure thereby
accommodating workers with an electro-hypersensitivity disability.
5. The safety of this technology has not thoroughly been researched and therefore the
precautionary principle and prudent avoidance of exposure should be practiced.
6. The purposeful introduction of non-ionizing radiation transmitters, such as WiFi, into
the work place is considered to be the introduction of new equipment that presents a
potential health and safety hazard for workers. As such, it is the duty of the Joint
Health and Safety Committee to develop a hazard control program to; assess the risk
of injury from the potential hazard, recommend controls to be applied to address the
hazards, and to monitor the effectiveness of the applied controls.
7. Administrative and physical control methods to address the hazards of non-ionizing
radiation, such as WiFi, in the workplace are readily available and relatively easy to
apply. Application of controls would be completely consistent with the ALARA (As Low
As Reasonably Achievable) approach and the precautionary principles as well as the
general duty clause, Section 25 (2)(h) of the Occupational Health and Safety Act.
I. OECTA recognizes that there is a growing concern regarding the potential adverse
health effects of the use of wireless technology which requires the broadcasting of
non-ionizing electromagnetic radiation, typically in the radio/microwave frequency
II. OECTA recognizes that the installation of WiFi microwave transmitters and the
expanded use of wireless devices in Catholic schools and educational facilities across
the Province of Ontario may present a potential Health and Safety risk or hazard in
III. OECTA recognizes the need to provide information to the Joint Health and Safety
Committee(s) at the local Unit level regarding the potential hazards and prudent
avoidance control measures regarding the presence of non-ionizing radiation (WiFi) in
the workplace such that they may exercise their powers as established under S. 9(18)
the Occupational Health and Safety Act (OHSA).
IV. OECTA post this position paper on the OECTA website.
Occupational Health and Safety Act [R.S.O. 1990, c. O.1, s. 9 (18)]
Powers of committee S (9)(18)
(18) It is the function of a committee and it has power to,
(a) identify situations that may be a source of danger or hazard to workers;
(b) make recommendations to the constructor or employer and the workers for
the improvement of the health and safety of workers;
(c) recommend to the constructor or employer and the workers the
establishment, maintenance and monitoring of programs, measures and
procedures respecting the health or safety of workers;
(d) obtain information from the constructor or employer respecting,
(i) the identification of potential or existing hazards of materials, processes
or equipment, and
(ii) health and safety experience and work practices and standards in similar
or other industries of which the constructor or employer has knowledge;
(e) obtain information from the constructor or employer concerning the
conducting or taking of tests of any equipment, machine, device, article,
thing, material or biological, chemical or physical agent in or about a
workplace for the purpose of occupational health and safety; and
(f) be consulted about, and have a designated member representing workers be
present at the beginning of, testing referred to in clause (e) conducted in or
about the workplace if the designated member believes his or her presence is
required to ensure that valid testing procedures are used or to ensure that the
test results are valid. R.S.O. 1990, c. O.1, s. 9 (18).
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