Science ASSIST recommends that practical science activities involving chemicals, biological materials, specialist equipment or procedures should only be conducted by science trained teachers who have been trained in and have ongoing access to professional learning opportunities in the safe delivery of practical lessons. Any non-trained science teachers using a science laboratory for a theory or non-science lesson should have induction training on the hazards and the required health and safety procedures in the science area.
Australian law is not prescriptive to this level of detail but focuses on general duties of care to provide safe workplaces. The Model Workplace Health and Safety (WHS) Act sets out the health and safety duties and the Model WHS Regulations set out more detail “to support the duties set out in the Model WHS Act”1. “Model Codes of Practice are practical guides to achieving the standards of health and safety required under the model WHS Act and Regulations”1. Whilst these have more detail, they are still not prescriptive to an individual workplace.
However, all schools must manage health and safety risks, as required under workplace health and safety legislation. Schools have a duty of care to their workers as well as to their students.
The management of risk is usually set out in school policy documentation. This includes managing risk in all curriculum activities which includes safe practice in the delivery of science activities. Schools need to determine their own policy to determine the staff requirements for delivering safe practical science lessons and the Head of the Science department should monitor that these policies are adhered to.
The Queensland Government articulate the legal obligations well by saying:
“Those responsible for any school curriculum activity have legal obligations and a common law duty of care to ensure the safety of all those involved in the activity through risk management. This requires that reasonably foreseeable risks are identified, assessed and effectively controlled.”2
The Association of Independent Schools of New South Wales states:
“While schools foster learning through practical activities, they must also meet work health and safety (WHS) obligations as a business.” (p3)3
“People: The poor behaviour of students can present a hazard. The nature of students, such as their maturity, age and skill, as well as medical conditions, such as allergies and disabilities, should be considered. The competency, knowledge and experience of the teacher who is supervising the practical should be acknowledged. A science practical with hazardous chemicals should only be undertaken by teachers if they understand the risks involved.” (p25)3
Schools should have a policy in place to state whether a practical science lesson should proceed in the event of the regular classroom science teacher being absent. A substitute teacher should be competent in the management of science specific risks if they are to conduct a practical science lesson. There are many safety aspects to consider:
- The awareness of the teacher regarding the hazards and the required health and safety procedures in the science area. (e.g. laboratory rules and security due to additional hazards in the science laboratories: gas taps, equipment, chemicals)
- The suitability of the science facilities and knowledge of the teacher regarding the correct use of Personal Protective Equipment (PPE) and the operation of emergency shut offs and first-aid facilities
- The hazards of the actual practical activity and knowledge and application of strategies to control the risks (e.g. use of specialised equipment such as the Van de Graaff generator)
- Some practical activities may require specific training (e.g. microbiology skills)
- The skills, abilities and behaviour of the students
- The allergies or medical conditions of the students may determine the non-use of certain resources due to allergies e.g. peanuts, latex, specific plants or additional precautions due to disabilities or medical conditions e.g. risks associated with static electricity, strobe lights, or the use of microorganisms.
Managing health and safety risks
The Model Code of Practice for How to manage work health and safety risks sets out the Workplace Health and Safety requirements in detail and notes one of the requirements for controlling risk as:
“Up-to-date training and competency
Most control measures depend on workers and supervisors having the appropriate competencies to do the job safely. Training must be provided to maintain competencies and to ensure new workers are capable of working safely.” (p23)
Where hazardous chemicals are used there are additional requirements. These are set out in the Model Code of Practice for managing the risks of hazardous chemicals. In particular, see section 4.4. Providing information, training, instruction and supervision.
- “Workers must be trained and have the appropriate skills to carry out a particular task safely.” P47
- “Information, training, instruction and supervision must be provided not only to workers but to other persons at the workplace such as visitors.” P48
- “Records of training provided to workers should be kept, documenting who was trained, when and on what.” P48
We provide some further links that provide helpful information on this topic.
References and Further reading
1 ‘Model WHS Laws’, Safe Work Australia website, https://www.safeworkaustralia.gov.au/law-and-regulation/model-whs-laws (Accessed August 2018)
2. Queensland Government. 2017. Managing risks in school curriculum activities, Queensland Department of Education Policy and Procedures website, http://ppr.det.qld.gov.au/education/management/Procedure%20Attachments/M...
3. The Association of Independent Schools of New South Wales Limited. 2015. Science and Technology Work Health and Safety. Risk management and assessment for practical activities, AISNSW website, https://www.aisnsw.edu.au/workplace-health-and-safety/Documents/Risk%20M...
CLEAPSS. 2004. S038 Training for science staff, the use of non-science specialists in secondary school science and the use of cover teachers in laboratories, CLEAPSS website, http://science.cleapss.org.uk/Resource-Info/PS082-Using-laboratories-for-non-science-activities.aspx (Member login required for access)
CLEAPSS. 2008. PS082 Using laboratories for non-science activities, CLEAPSS website, http://science.cleapss.org.uk/Resource-Info/PS082-Using-laboratories-for-non-science-activities.aspx
‘Model Code of Practice: How to manage work health and safety risks’, Safe Work Australia website, https://www.safeworkaustralia.gov.au/doc/model-code-practice-how-manage-work-health-and-safety-risks (25 May 2018)
‘Model Code of Practice: Managing risks of hazardous chemicals in the workplace’, Safe Work Australia website, https://www.safeworkaustralia.gov.au/doc/model-code-practice-managing-risks-hazardous-chemicals-workplace (18 May 2018)
Australian Capital Territory
ACT Education Directorate. 2016. Risk Management in ACT Government Schools Secondary Science Programs Appendix, ACT Education Directorate website, https://www.education.act.gov.au/publications_and_policies/policies (Internal access only)
ACT Education Directorate. 2016. Risk Management in ACT Government Schools Secondary Science Programs Policy and Guidelines, ACT Education Directorate website, https://www.education.act.gov.au/publications_and_policies/policies (Internal access only)
New South Wales
‘Safety – Chemical Safety in Schools’, NSW Department of Education website, https://education.nsw.gov.au/teaching-and-learning/curriculum/key-learning-areas/science/safety (7 September 2017)
The Association of Independent Schools of New South Wales Limited. 2015. Science and Technology Work Health and Safety. Risk management and assessment for practical activities, AISNSW website, https://www.aisnsw.edu.au/workplace-health-and-safety/Documents/Risk%20M...
Northern Territory Department of Education. 2009. Occupational Health and Safety, Science Guidelines (log-in required).
‘Health and safety risk management’, Queensland Department of Education website, http://education.qld.gov.au/health/safety/managing/risk.html (16 August 2016)
‘Managing Risks in School Curriculum Activities’, Queensland Department of Education website, http://ppr.det.qld.gov.au/education/management/Pages/Managing-Risks-in-School-Curriculum-Activities.aspx (24 October 2017)
‘Planning and risk management’, South Australia Department of Education website, https://www.education.sa.gov.au/department/governance/governance-framework/planning-and-risk-management (Accessed August 2018)
‘Curriculum in Tasmanian Schools K-12 Procedures’, Tasmanian Department of Education website, https://documentcentre.education.tas.gov.au/Documents/Curriculum-Procedures-in-Tasmanian-Schools-K-12.pdf#search=safety%20in%20science (10 February 2016)
‘Risk Management’, Victorian Department of Education and Training website, https://www.education.vic.gov.au/school/principals/spag/governance/pages... (Link updated September 2018)
‘Safety in Science’, Victorian Department of Education and Training website, https://www.education.vic.gov.au/school/principals/spag/curriculum/pages... (Link updated September 2018)
WA Department of Education. 2010. Science Laboratory Manual, WA Department of Education website, http://ecm.det.wa.edu.au/connect/resolver/view/K12SCI019/latest/index.html (Login required)
WA Department of Education. 2018. Guide to registration standards and other requirements for non-government schools, WA Department of Education website, https://www.education.wa.edu.au/documents/43635034/0/2957-RegistrationStandards_FINAL.PDF/3d18e8dd-6f1f-977d-425b-2ae0ce32ed52 (See risk management and risk assessment requirements)
American Chemical Society. 2011. Safety in the elementary science classroom, ACS website, https://www.acs.org/content/dam/acsorg/about/governance/committees/chemi...
American Chemical Society. 2012. ACS Guidelines and Recommendations for the Teaching of High School Chemistry, ACS website, https://www.acs.org/content/dam/acsorg/education/policies/recommendations-for-the-teaching-of-high-school-chemistry.pdf
National Science Teachers Association. 2007. NSTA Position Statement: The Integral Role of Laboratory Investigations in Science Instruction, NSTA website, http://www.nsta.org/about/positions/laboratory.aspx
National Science Teachers Association. 2015. NSTA Position Statement: Safety and School Science Instruction, NSTA website, http://www.nsta.org/about/positions/safety.aspx
National Science Teachers Association. 2017. NSTA Position Statement: Liability of Science Educators for Laboratory Safety, NSTA website, http://www.nsta.org/about/positions/liability.aspx
National Union of Teachers. 2015. Safety in practical lessons. National Education Union website, https://www.teachers.org.uk/files/safety-in-practical-lessons_0.doc
Nuffield Foundation. Nd. Standard Health & Safety guidance, Nuffield Foundation website, http://www.nuffieldfoundation.org/standard-health-safety-guidance