Science / Year 8 / Science Inquiry Skills / Questioning and predicting

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Curriculum content descriptions

Identify questions and problems that can be investigated scientifically and make predictions based on scientific knowledge (ACSIS139)

Elaborations
  • considering whether investigation using available resources is possible when identifying questions or problems to investigate
  • recognising that the solution of some questions and problems requires consideration of social, cultural, economic or moral aspects rather than or as well as scientific investigation
  • using information and knowledge from their own investigations and secondary sources to predict the expected results from an investigation
General capabilities
  • Literacy Literacy
  • Critical and creative thinking Critical and creative thinking
ScOT terms

Predictions (Science),  Research questions

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7 direct matches to ACSIS139 | 13 other related resources
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Video

Lens Simulation (sk- Intel)

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Students learn about the application of light refraction by completing a series of tasks based on light refraction using both concave and convex lenses.

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Interactive

Digestion Experiments 2

  • TLF-IDM016206

Students use this resource consisting of ten slides with diagrams, written explanation and voice-over to understand that enzymes work best at a specific pH. There is a two-question quiz and a summary slide.

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Video

Mirrors Simulation (sk-Intel)

  • TLF-IDM016413

Students explore the reflection of light by plane mirrors and operate a simple periscope using ray diagrams.

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Interactive

iPlan

  • TLF-IDM016719

This resource contains ten IWB flipcharts as well as Flash alternative exercises and models how to plan a scientific investigation, choose the right equipment and follow safe working practices.

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Interactive

Experiments to see if Chlorophyll and Light are Needed to Make Starch

  • TLF-IDM016747

Students use this resource consisting of eight slides with diagrams, written explanation and voice-over to understand that chlorophyll and light are needed for a plant to make starch. There is a two-question quiz and a summary slide.

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Video

Experimentals: Do different things fall faster?

  • TLF-IDM015950

Want to find out what happens when you drop a watermelon and an apple from the top of a building? In this clip, Bernie Hobbs and Ruben Meerman, investigate whether the mass of an object influences how fast it falls. Bernie and Ruben ride the 'Giant Drop' at Dreamworld, drop a watermelon and apple from an eighth floor balcony, ...

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Video

Catalyst: Do heavier things fall faster?

  • TLF-IDM015553

Will a medicine ball or a basketball hit the ground first when dropped at the same time from the same height? In this clip, Catalyst's Dr Derek Muller investigates what influences the speed at which objects fall. Derek challenges some people in a market to make a prediction and explain their thinking, before he finally ...

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Image

Amphipod

  • TLF-IDR6878

This is a colour photograph of a marine amphipod ('Birubius wirakus'), showing its characteristic curved body shape and tail limbs.

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Image

Sea louse

  • TLF-IDR6879

This is a colour photograph of a sea louse ('Natatolana woodjonesi').

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Image

Phar Lap

  • TLF-IDR6369

This is a photograph showing the mounted hide of Phar Lap, a champion racehorse in the late 1920s and early 1930s. He was a large chestnut-coloured gelding who stood 17.1 hands (about 174 cm) tall.

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Image

Bromine monofluoride molecule

  • TLF-IDR6854

This is a colour image of a model of a molecule of bromine monofluoride, BrF. In this model, atoms are represented by coloured spheres held together by grey rods, representing covalent bonds. The bromine monofluoride molecule contains one bromine atom (the brown sphere) and one fluorine atom (the blue-grey sphere).

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Image

Gastropod fossil

  • TLF-IDR6871

This is a colour photograph of a fossil of a gastropod 'Tenagodus occlusus', showing the spiralled shell.

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Image

Bilby skull

  • TLF-IDR7910

This is a colour photograph of the internal skull of a bilby ('Macrotis lagotis'). This museum specimen displays two components of the skull: the braincase with fused rostrum and the lower jaw. This image has a pale background and includes a black scale line representing 2 cm. (Classification - Phylum: Chordata, Class: ...

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Image

Phar Lap's skeleton

  • TLF-IDR1753

This is the skeleton of Phar Lap, the famous racehorse, which was born in New Zealand, raced mostly in Australia and died in unexplained circumstances in the United States in 1932.

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Image

Paradise parrot

  • TLF-IDR6889

This is a colour photograph of a preserved paradise parrot ('Psephotus pulcherrimus'). It is a museum specimen displayed perching on a branch. The bright plumage colours for which it is well known are clearly visible.

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Image

Great pampa finch

  • TLF-IDR6892

This is a colour photograph of a preserved great pampa finch ('Embernagra platensis'). The tail of this specimen is missing. Identification labels and cataloguing numbers are attached to the specimen.

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Image

Fish fossil

  • TLF-IDR6895

This is a colour photograph of an ancient fish ('Wadeichthys oxyops') fossilised in mudstone. This specimen is from the Koonwarra fossil bed in South Gippsland, Victoria. The fins, tail and body scales of the fish are clearly visible. Museum cataloguing numbers are written on the rock.

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Image

Thylacine pup

  • TLF-IDR6896

This is a colour photograph of a preserved underdeveloped thylacine pup ('Thylacinus cynocephalus'). It is a museum specimen preserved in a glass container. Museum cataloguing labels are visible.

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Image

Dinosaur fossil bone

  • TLF-IDR6897

This is a colour photograph of a fossil bone set against a black background. This bone is an opalised fossil of a femur, or thigh bone, of a hypsilophodont dinosaur. The blue colouration of this opalised fossil bone is clearly visible.

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Image

Ethanol molecule

  • TLF-IDR6972

This is a colour image of a model of a molecule of ethanol, CH₃CH₂OH. In this model, atoms are represented by coloured spheres held together by grey rods that represent covalent bonds. The molecule contains two carbon atoms (the black spheres), one oxygen atom (the red sphere) and six hydrogen atoms (the grey-white spheres).

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