F-10 Curriculum (V8)
F-10 Curriculum (V9)
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This is a unit of work about the scientific techniques and ethical considerations in art conservation and the occupations that exist in art conservation. The resource includes: An introduction with teacher notes, student tasks, embedded videos and links to other resources. Specific topics explored include what art conservators ...
This is a unit of work about forensic science, the occupations that use forensic science and the future and ethics of forensics. The resource includes: An introduction with teacher notes, student tasks, embedded videos and links to additional resources. Specific topics explored include what is forensic science and how ...
This resource provides information and teaching and learning activities about Victorian wetlands environments. The resource is designed to accompany students on a visit to Cussen Park and to provide a guide to interacting with its interpretative Soundwalk and signage. The activities also provide general information on the ...
This is a detailed plan for teaching a unit on habitats. It includes a unit outline, overview and aim, learning outcomes, inquiry questions, background information about habitats, lesson plans and a guide to assessment. The lesson sequence is based on the inquiry based 5Es approach to teaching Science, with a focus on investigations ...
This resource highlights fifteen natural ecosystems found in New South Wales. Each resource has been designed for students investigating ecosystem types in NSW, providing a greater understanding of their location, function, how they are impacted by human activity and how schools and communities can work to protect them. ...
Search for small creatures in an Australian garden. Find animals such as a scorpion, a lacewing and a cicada. Have a close look at their body parts. Return all the animals to their habitats. This learning object is one in a series of two objects. The series is also packaged as a combined learning object.
Search for small creatures in an Australian garden. Find animals such as a scorpion, a lacewing and a cicada. Have a close look at their body parts. Identify groups of creatures that have similar body features such as wings or number of legs. Return all the animals to their habitats. This content is also suitable for use ...
Investigate the role of friction in performance of bicycle tyres. Test how the type of tread affects grip and speed. Choose tyres best suited to track and weather conditions in a time trial. This learning object is one in a series of four objects.
Move animals from a boat to their new home in a zoo. Put them on a cart, then use monkeys to push or pull them up a hill. Use the minimum amount of force needed to move each animal. For example, use a single monkey to push a pelican or use three monkeys to pull a zebra. This learning object is a combination of three objects ...
Test your understanding of push and pull forces by moving animals using monkey power. Investigate and then predict the effects of applying a force to move a range of objects of various mass. For example, select two monkeys to move a pelican, and predict whether they will move the pelican slowly, quickly or too fast.
This is an edited sound recording of one of Australia's best known research scientists and immunologists, Sir Gustav Nossal, outlining his views on medical research. He discusses the qualities necessary for a person to be a successful scientific researcher and talks about the nature and future of science research, suggesting ...
See how scientists such as Ernest Rutherford have investigated the structure of atoms. Explore possible models. Fire charged particles at atoms and find which model best fits the results. This learning object is one in a series of six objects. Three of the objects are also packaged as a combined learning object.
See how genes and genetic engineering work. Build models of DNA, and work out how it is copied as cells divide. Discover how the codes carried in the genes are copied and used to build proteins. See how gene splicing can be used to benefit human lives. For example, model the transfer of a human gene into bacteria, so they ...
This is an edited sound recording of Sir Gustav Nossal describing the medical research for which he became internationally known. He outlines his contributions to the emerging science of immunology in the 1950s-70s, and how other researchers have been able to make further discoveries based on his initial work. The recording ...
Investigate the internal structure of the Earth using earthquake measurements. Examine the Earth’s outer layer. Fit the Earth's tectonic plates together like a jigsaw puzzle. Identify how plate movements produce many features of the Earth’s surface. Predict the formation of new volcanic islands. This learning object is ...