Electrical Circuits Delve deep into series & parallel circuits as your students use a variety of resistors, motors & more in this hands-on electricity workshop! Enquire Now A hands-on workshop where students learn how electrical circuits really work. Learn about series vs. parallel circuits. Learn about different types of resistors & diodes Apply Ohm’s Law and take advantage of the path of least resistance. Play with sirens, bells and buzzers. Get motors to spin, electrical gates to work, understand circuit diagrams and much more! The session begins simply to introduce the basics of open vs. closed circuits and then slowly introduces that various circuits that can be made. This is highly open-ended: there are 180 separate circuits layouts that can be made and so once the students have a firm understanding of the content and background science they can then explore at their own pace. Trustpilot Quick Links Past projects Requirements Cost per Science Show Free Science Resources Back to Secondary Science Incursions 150 Free Experiments Fizzics in the Media Australian Curriculum Mapping for all science workshops & shows Australian ACARA Content Outcomes: Energy transfer through different mediums can be explained using wave and particle models (ACSSU182) Energy conservation in a system can be explained by describing energy transfers and transformations (ACSSU190) Australian National Curriculum Mapping for all our science workshops & shows NSW SCIENCE SYLLABUS CONTENT for all our incursions A student: applies models, theories and laws to explain situations involving energy, force and motion SC5-10PW explains how scientific understanding about energy conservation, transfers and transformations is applied in system SC5-11PW PW3 Scientific understanding of current electricity has resulted in technological developments designed to improve the efficiency in generation and use of electricity. NSW K – 10 Science Syllabus mapping for all our incursions Victorian Science Syllabus: Electric circuits can be designed for diverse purposes using different components; the operation of circuits can be explained by the concepts of voltage and current (VCSSU130) The interaction of magnets can be explained by a field model; magnets are used in the generation of electricity and the operation of motors (VCSSU131) Requirements Appropriate for Years 9 to 10 with a maximum of 30 students per class. Access to 15 tables or a similar floor space. Chairs are not required. Duration 60 or 90 minutes, set up time 30 minutes and pack up time 30 minutes During Social Distancing – Contact us and we’ll tailor a program to suit both your school and the State’s social distancing requirements. Further details here Did you know about our larger stage shows? Designed to engage groups of up to 240 students, pair this workshop with one of these school favourites! Big Science Big Fun tick tick BOOM! Destination Moon Cost $495 GST Free for a 60-minute workshop or $540 GST Free for a 90-minute workshop. Link with Madlab Electronics to solder circuits for an extension activity! Call 1300 856 828, or click below to make a booking for your primary school. Print a PDF for mapping of all our K to 6 science visits Trustpilot Find out more here Enquire Now Fizzics Education Awards Related Shows Liquid Nitrogen Show Years 7 to 10 Maximum 60 students Science show 45 minutes Online Class Available Year 10 Chemical Science Human Endeavor Physical Science Science Inquiry New South Wales Victoria Australian Capital Territory Year 7 Year 8 Year 9 Read More Enquire Now Light & Colour Years 7 to 10 Maximum 60 students Science Show (NSW & VIC only) 60 minutes Online Class Available Human Endeavor Physical Science Science Inquiry New South Wales Victoria Year 7 Year 8 Year 9 Year 10 Read More Enquire Now Fizzics Offers & Discounts – Secondary Making science accessible for all grades Trying to embed inquiry-based learning across your school? Need to make STEM & PBL a priority? Want to help students science understanding shine? Let Fizzics make this easy for you! Curriculum-linked science workshops & shows at a discount! Removes the hassle of planning for all grades across the year […] Read More Enquire Now
Australian ACARA Content Outcomes: Energy transfer through different mediums can be explained using wave and particle models (ACSSU182) Energy conservation in a system can be explained by describing energy transfers and transformations (ACSSU190) Australian National Curriculum Mapping for all our science workshops & shows
A student: applies models, theories and laws to explain situations involving energy, force and motion SC5-10PW explains how scientific understanding about energy conservation, transfers and transformations is applied in system SC5-11PW PW3 Scientific understanding of current electricity has resulted in technological developments designed to improve the efficiency in generation and use of electricity. NSW K – 10 Science Syllabus mapping for all our incursions Victorian Science Syllabus: Electric circuits can be designed for diverse purposes using different components; the operation of circuits can be explained by the concepts of voltage and current (VCSSU130) The interaction of magnets can be explained by a field model; magnets are used in the generation of electricity and the operation of motors (VCSSU131)
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