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Science

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Level A (Towards Foundation)

Level A Description

In Level A, students learn that their senses can help them understand the world around them and the objects within it. They experience a range of activities that will assist them to attend to and explore the world around them with as much independence as possible. They are exposed to and encouraged to move from a pre-intentional to intentional state, and react to everyday objects, materials and living things. They are exposed to change in the world around them, including changes that impact on them, for example the weather, and changes they can effect, for example making things move or change shape. They use their senses to gather different types of information and learn to initiate and refine their responses to familiar objects and the world around them.

Level A Content Descriptions

Science Understanding

Science as a human endeavour Elaborations
  1. There are objects in the world around us (VCSSU001)
    1. directing attention towards objects in the world around them
    2. responding to preferred objects by reaching towards or holding an object for a short time
Biological sciences Elaborations
  1. Living things are part of the world around us (VCSSU002)
    1. experiencing a variety of living things in a range of situations such as pets at school, plants in a garden, animals on a farm or in the school grounds
    2. responding to the characteristics of different things, for example, texture of their covering, softness, size, sounds they make
Chemical sciences Elaborations
  1. Objects are part of the world around us (VCSSU003)
    1. experiencing everyday objects around them and their properties, for example, colour, size, texture, smell
    2. identifying some familiar objects, for example, by seeking, reaching or directing attention towards a preferred object
Earth and space sciences Elaborations
  1. Changes in the world around us can affect responses (VCSSU004)
    1. making decisions about clothing, location and activity based on their reaction to, and changes in, the weather
    2. demonstrating an awareness of the time of day by responding to activities associated with different times of the day, for example, eating lunch, getting dressed to go to school, packing bags to go home
Physical sciences Elaborations
  1. Objects can be moved and touched (VCSSU005)
    1. demonstrating an awareness of force by watching or causing objects to bounce, swing, roll or slide
    2. demonstrating an awareness of energy by responding to a variety of phenomena, for example, flashing lights, noisy toys, mechanical objects moving

Science Inquiry Skills

Questioning and predicting Elaborations
  1. Engage and react to objects and events (VCSIS006)
    1. experiencing objects being used in everyday events and in structured activities
    2. experiencing simple exploration through play and in structured activities
Planning and conducting Elaborations
  1. Gather information about objects and events (VCSIS007)
    1. reacting to sensory input while participating in supported activities related to changes in objects and events, for example, reactions to flashing lights, different types of music, travelling on a bus
    2. participating in supported activities related to natural and constructed changes in the environment such as weather, tree planting, vegetable growing
Recording and processing Elaborations
  1. React and respond to objects and events (VCSIS008)
    1. exploring the sensory feedback they receive from objects around them that are placed within their space, for example, temperature, weight , texture or taste
    2. attending to an activity or event for short periods of time
Analysing and evaluating Elaborations
  1. Accept and reject objects and events from the world around them (VCSIS009)
    1. tracking and following familiar people and objects
    2. making a selection from an array of objects
Communicating Elaborations
  1. Communicate by initiating and refining their responses and using accept-or-reject gestures or actions (VCSIS010)
    1. intentionally responding to an activity, change, object with accept-or-reject gestures or actions
    2. gaining the attention of familiar adults and intentionally communicating with vocal sounds, eye gaze, facial expression

Level A Achievement Standard

By the end of Level A, students react to the properties and behaviour of familiar objects. They react to environmental changes and respond to their effects through a positive or negative response. Students initiate and communicate a response to, or acceptance or rejection of, familiar objects and events.

Level B (Towards Foundation)

Level B Description

In Level B, students play and use structured activities to make observations and use their senses to investigate the behaviours and properties of everyday objects, materials and living things. They explore change in the world around them, including changes that impact on them, for example the weather, and changes they can effect, for example making things move or change shape. They use their senses to gather information and learn that explorations and observations are a core part of science.

Level B Content Descriptions

Science Understanding

Science as a human endeavour Elaborations
  1. Objects and the world around us can be explored (VCSSU011)
    1. manipulating a variety of materials to explore their characteristics, for example, sensory tubs filled with pasta, feathers, water, pebbles
    2. observing what happens when materials are mixed, manipulated, moved and changed
Biological sciences Elaborations
  1. Living things can look and feel different (VCSSU012)
    1. handling and observing living and non-living things
    2. developing an emerging awareness of some essential characteristics of living things, for example, 'Eyes are for seeing’
Chemical sciences Elaborations
  1. Objects can be the same or different and can look and feel different (VCSSU013)
    1. mixing and playing with various materials, for example, using sand and water to build sandcastles, or pouring water onto a sandy footpath to make a water track
    2. exploring and manipulating variety of materials in structured and unstructured activities
Earth and space sciences Elaborations
  1. The weather and time of day can change (VCSSU014)
    1. identifying the characteristics of day and night, for example, morning, evening, sun, moon, stars, sunrise, sunset
    2. answering with a ‘yes’ or ‘no’ response to questions related to changes in the weather, for example, ‘Is the weather today different from yesterday?’, ‘Do you think the weather will change after lunch?’
Physical sciences Elaborations
  1. Objects can be changed and manipulated (VCSSU015)
    1. exploring the effects that simple physical actions have on everyday objects, for example, pushing a toy car to make it move, letting go of an inflated balloon, dropping a ball
    2. investigating how objects can change shape, for example, by squeezing, tearing, twisting, pulling, dropping

Science Inquiry Skills

Questioning and predicting Elaborations
  1. Engage in simple cause-and-effect exploration (VCSIS016)
    1. touching, pushing, dropping, mixing objects to see what happens to them
    2. using cause-and-effect games, programs and toys
Planning and conducting Elaborations
  1. Explore using their senses (VCSIS017)
    1. beginning to use their senses, with teacher guidance, to explore and describe the world around them by tasting, smelling, seeing, touching and hearing
    2. interacting with living things and objects, with teacher guidance, for example, comparing the textures of different animal coats, listening to different bird calls, comparing shapes and sizes of different containers
Recording and processing Elaborations
  1. Use ‘yes’ or ‘no’ response, pictures, photos and concrete objects to demonstrate their findings (VCSIS018)
    1. exploring the effects that simple physical actions have on everyday objects
    2. exploring and investigating basic cause-and-effect software and activities, for example, hitting a switch, dropping an object, letting go of an object on an incline, feeding an animal
Analysing and evaluating Elaborations
  1. Supported to make links between causes and effects (VCSIS019)
    1. pointing to the body parts that are used to taste, smell, see, touch and hear
    2. recognising what will happen next when using a familiar cause-and-effect activity, for example, deliberatively activating the effect, pointing to the effect
Communicating Elaborations
  1. Respond to language used to label and describe properties and begin to identify familiar objects (VCSIS020)
    1. answering using a ‘yes’ or ‘no’ response to questions relating to a focus characteristic of an explored material
    2. responding to language used to label and describe properties such as colour, texture and taste
    3. beginning to identify familiar products, for example, dog, apple, milk, toy

Level B Achievement Standard

By the end of Level B, students can identify some familiar objects. They actively explore the properties of familiar objects and deliberately initiate a cause to achieve the expected effect. In structured situations, teachers assist the student to record observations of the weather, familiar objects and events using real objects and visual aids. They communicate their choices and indicate ‘yes’ and ‘no’ responses to simple questions.

Level C (Towards Foundation)

Level C Description

In Level C, students intentionally participate in investigations that require them to explore, observe and identify properties of everyday objects, materials and living things. They explore change in the world around them, including changes that impact on them, for example the weather, and changes they can effect, for example making things move or change shape. They use their senses to gather information and learn that exploring questions and making observations are a core part of science.

Level C Content Descriptions

Science Understanding

Science as a human endeavour Elaborations
  1. Objects and parts of the world around us have names and particular characteristics (VCSSU021)
    1. beginning to categorise some familiar substances, for example, cup (plastic), animal (furry), bird (feathered)
    2. recognising and beginning to use alternative and augmentative communication or words that describe an object and the characteristics of substances, for example, hard, soft, fast, slow
Biological sciences Elaborations
  1. Living things have different names and parts (VCSSU022)
    1. developing an understanding of some features of living things
    2. identifying some features of living things, for example, plants have leaves, dogs have fur, eyes, mouths and legs, flowers have petals, fish have scales
Chemical sciences Elaborations
  1. Objects have different names and properties, and some can be manipulated and changed (VCSSU023)
    1. identifying and naming a variety of natural materials in the environment, for example, ‘rock’, ‘grass’, ‘water’, ‘sand’, ‘tree’
    2. combining substances and observing them change during mixing, for example, salt and sugar dissolving in water, making jelly
Earth and space sciences Elaborations
  1. Weather involves sun, rain, wind and clouds and can be hot, cold and warm (VCSSU024)
    1. responding to questions related to the weather, for example, ‘Do you think it will rain?’, ‘Do you feel hot?, ‘Is it snowing?’
    2. identifying and sorting pictures and objects into 'hot' and 'cold' weather activities
Physical sciences Elaborations
  1. Objects can move in different ways (VCSSU025)
    1. developing a basic understanding of how things move, for example, push and pull, drop or throw, battery power
    2. using words that describe simple forces, for example, ‘fast’, ‘slow’, ‘push’, ‘pull’

Science Inquiry Skills

Questioning and predicting Elaborations
  1. Supported to engage in simple scientific inquiry (VCSIS026)
    1. engaging in simple scientific inquiry to find answers to simple questions, for example, ‘What happens when I freeze water?’
    2. participating in simple structured investigations to explore an object’s characteristics
Planning and conducting Elaborations
  1. Supported to use the senses to identify some characteristics (VCSIS027)
    1. using the senses to identify some characteristics of familiar living things, for example, colour, texture, smell and sound
    2. using objects and materials in a more purposeful way, for example, intentionally using an object to cause an effect, bouncing a ball
Recording and processing Elaborations
  1. Use pictures and words to describe observations and findings and begin to categorise objects (VCSIS028)
    1. using pictures, photos, symbols and concrete objects to record observations about the weather
    2. beginning to categorise some familiar substances with similar properties related to a sense, for example, hard or soft, rough or smooth
Analysing and evaluating Elaborations
  1. Make links between observations and findings (VCSIS029)
    1. using images to make simple inferences, for example, a photo of people wearing hats and short-sleeved shirts indicates a sunny day
    2. commenting on the results of simple structured investigations, for example, ‘The toy car goes fast when we push it hard’,‘The ice block melts when left in the sun’
Communicating Elaborations
  1. Use pictures, symbols, concrete objects and/or simple familiar words to facilitate communication (VCSIS030)
    1. recognising and beginning to use words that describe the characteristics of substances, for example, ‘red’, ‘soft’, ‘hard’, ‘light’, ‘heavy’
    2. learning to use words that describe simple forces, for example, ‘fast’, ‘slow’, ‘push’ and ‘pull’

Level C Achievement Standard

By the end of Level C, students participate in structured investigations that look at the names and properties of living things and objects. They label, sort and group objects based on one specific property or characteristic. Students share discoveries through alternative augmentative communication and the use of objects, images and pictures.

Level D (Towards Foundation)

Level D Description

In Level D, students are building their independence to observe and share what they discover about the characteristics and properties of everyday objects, materials and living things. They explore change in the world around them, including changes that impact on them, for example the weather, and changes they can effect, for example making things move or change shape. They use their senses to gather information and learn that investigating objects, asking questions, seeking answers to questions and making observations are a core part of science.

Level D Content Descriptions

Science Understanding

Science as a human endeavour Elaborations
  1. Science is about exploring the world around me (VCSSU031)
    1. recognising that structured investigations help us understand objects and the world around us
    2. exploring and observing using different senses
    3. working with others to observe and manipulate objects used in everyday life
Biological sciences Elaborations
  1. Living things can be plants or animals (VCSSU032)
    1. observing the life cycles of living things
    2. displaying an understanding of the requirements of living things by caring for them, for example, watering plants and feeding pets
Chemical sciences Elaborations
  1. Objects can be sorted into groups based on their properties, and some objects can be mixed and changed (VCSSU033)
    1. investigating objects and materials and sorting into groups based on two attributes, for example, food or drink, hot or cold, big or small
    2. investigating what familiar objects are made from, including their parts and materials
Earth and space sciences Elaborations
  1. The weather and time of day affect events and clothing choices (VCSSU034)
    1. linking the time of day with routine events and objects
    2. using images of different clothes to put together a ‘summer’ and a ‘winter’ outfit
Physical sciences Elaborations
  1. The shape of objects will affect how they move (VCSSU035)
    1. investigating how the shape of an object affects how well it can roll or slide
    2. investigating how the shape of a helicopter blade affects how long a model paper helicopter can stay in the air

Science Inquiry Skills

Questioning and predicting Elaborations
  1. Actively join in exploration of familiar objects and events (VCSIS036)
    1. asking questions about objects used in everyday life
    2. following directions and asking questions about everyday objects and events
Planning and conducting Elaborations
  1. Actively observe, explore and manipulate (VCSIS037)
    1. actively joining in scientific investigations directed by the teacher
    2. identifying and using familiar objects in routine events
    3. using senses, under teacher direction, to gather information about the world around them
Recording and processing Elaborations
  1. Use pictures, words and provided simple graphic organisers to record observations and findings and sort objects into groups based on particular characteristics (VCSIS038)
    1. using photos , pictures and words to represent and record their observations, for example, the life cycle of living things, parts of different plants
    2. sorting objects or living things based on set characteristics, for example, number of legs, type of body covering
Analysing and evaluating Elaborations
  1. Use words to answer simple questions about observations and findings (VCSIS039)
    1. identifying the characteristics of an object or living thing, for example, ‘a house has a roof, windows, doors, a floor and rooms’, ‘an animal has eyes and a mouth, while a plant has roots, stems, leaves, flowers and fruit’
    2. taking part in formal and guided discussions relating to students’ observations
Communicating Elaborations
  1. Use both general terms and simple, scientific vocabulary to begin to describe their activities and observations (VCSIS040)
    1. working in a small group (with teacher support) using photos and real objects to describe what they have done and what they have found out
    2. communicating ideas using images, key words, alternative and augmentative communication systems and answering ‘yes’ or ‘no’ questions related to their findings

Level D Achievement Standard

By the end of Level D, students can identify and label many familiar objects and indicate some of their properties by using gestures, words, images and objects. They can sort objects based on two properties and can identify key characteristics of familiar plants and animals. Students can identify some ways the weather affects the environment and their clothing choices. Students share and demonstrate their understanding of objects and events through images, pictures, alternative and augmentative communication and simple statements.

Foundation to Level 2

Foundation to Level 2 Description

In Foundation to Level 2, the curriculum focus is on awareness of self and the local world. Students observe changes that can be large or small and happen quickly or slowly. They explore the properties of familiar objects and phenomena, identifying similarities and differences. Students observe patterns of growth and change in the world around them, including weather and living things. They...

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Foundation to Level 2 Content Descriptions

Science Understanding

Science as a human endeavour Elaborations
  1. People use science in their daily lives (VCSSU041)
    1. monitoring information about the environment and Earth's resources, for example, rainfall, water levels and temperature
    2. identifying the ways humans manage and protect resources, for example, reducing waste and conserving water
Biological sciences Elaborations
  1. Living things have a variety of external features and live in different places where their basic needs, including food, water and shelter, are met (VCSSU042)
    1. recognising common features of animals, for example, head, legs and wings
    2. describing the use of animal body parts for particular purposes, for example, moving and feeding
    3. identifying common features of plants, for example, leaves and roots
    4. recognising that different living things live in different places, for example, land and water
    5. exploring what happens when habitats change and some living things can no longer have their needs met
  2. Living things grow, change and have offspring similar to themselves (VCSSU043)
    1. representing personal growth and changes from birth
    2. exploring the different characteristics of the life stages in animals, for example, butterflies or frogs
Chemical sciences Elaborations
  1. Objects are made of materials that have observable properties (VCSSU044)
    1. sorting and grouping materials on the basis of observable properties such as colour, texture and flexibility
    2. comparing the traditional materials used for clothing from around the world
    3. thinking about how the materials used in buildings and shelters are suited to the local environment
  2. Everyday materials can be physically changed or combined with other materials in a variety of ways for particular purposes (VCSSU045)
    1. predicting and comparing how the shapes of objects made from different materials can be physically changed through different actions, for example, bending, stretching and twisting
    2. investigating how food can be mixed to form different products, for example, jelly, ice cream or cake
    3. suggesting why different parts of everyday objects such as toys and clothes are made from different materials
    4. identifying materials that can be changed and remade or recycled into new products, for example, paper and plastic
Earth and space sciences Elaborations
  1. Observable changes occur in the sky and landscape; daily and seasonal changes affect everyday life (VCSSU046)
    1. recording short and longer term patterns of events that occur on Earth and in the sky, for example, the appearance of the moon and stars at night, the weather and the seasons
    2. linking changes in the daily weather to the way we modify our behaviour and dress for different conditions, including examples from different cultures
    3. investigating how changes in the weather might affect animals such as pets, animals that hibernate, or migratory animals
  2. Earth’s resources are used in a variety of ways (VCSSU047)
    1. identifying Earth’s resources, including water, soil and minerals, and describing how they are used at school and in the home
    2. considering what might happen to humans if there were a change in a familiar available resource, for example, water
    3. identifying actions at school that can conserve resources, for example, turning off dripping taps
Physical sciences Elaborations
  1. The way objects move depends on a variety of factors including their size and shape: a push or a pull affects how an object moves or changes shape (VCSSU048)
    1. observing the way different shaped objects move, such as balls, blocks and tubes
    2. comparing the way different sized, but similar shaped, objects roll and bounce, such as tennis balls, golf balls, marbles and basketballs
    3. observing how the movement of different living things depends on their size and shape
    4. exploring how different strengths of pushes and pulls affect the movement of objects
    5. identifying toys from different cultures that use the forces of push or pull
  2. Light and sound are produced by a range of sources and can be sensed (VCSSU049)
    1. recognising senses are used to learn about the world around us: our eyes to detect light, our ears to detect sound, touch to feel vibrations, our noses to detect smell and our tongues to detect taste
    2. identifying the Sun as a source of light
    3. recognising that objects can be seen when light from sources is available to illuminate them
    4. exploring different ways to produce sound using familiar objects and actions, for example, striking, blowing, scraping and shaking

Science Inquiry Skills

Questioning and predicting Elaborations
  1. Respond to and pose questions, and make predictions about familiar objects and events (VCSIS050)
    1. considering questions relating to objects used in everyday life and changes in the weather
    2. thinking about ‘What will happen if...?’ type questions about everyday objects and events
Planning and conducting Elaborations
  1. Participate in guided investigations, including making observations using the senses, to explore and answer questions (VCSIS051)
    1. safely using sight, hearing, touch, taste and smell so that students can gather information about the world around them
    2. manipulating objects and materials and making observations of the results
    3. exploring how musical instruments can be used to produce different sounds
Recording and processing Elaborations
  1. Use informal measurements in the collection and recording of observations (VCSIS052)
    1. using units that are familiar to students from home and school, such as cups (cooking), hand spans (length) and walking paces (distance) to make and compare observations
  2. Use a range of methods, including drawings and provided tables, to sort information (VCSIS053)
    1. using matching activities, including identifying similar things, odd-one-out and opposites
    2. sorting information in provided tables or graphic organisers
    3. constructing column and picture graphs with teacher guidance to record gathered information
Analysing and evaluating Elaborations
  1. Compare observations and predictions with those of others (VCSIS054)
    1. discussing, with guidance, why original prediction had been made
    2. discussing observations with other students to see similarities and differences in results
Communicating Elaborations
  1. Represent and communicate observations and ideas about changes in objects and events in a variety of ways (VCSIS055)
    1. discussing with others what was discovered from an investigation
    2. presenting ideas to other students, both one-to-one and in small groups

Foundation to Level 2 Achievement Standard

By the end of Level 2, students describe examples of how people use science in their daily lives. They identify and describe examples of the external features and basic needs of living things. They describe how different places meet the needs of living things. They describe the properties, behaviour, uses and the effects of interacting with familiar materials and objects. They discuss how light and sound can be produced and sensed. They identify and describe the changes to objects, materials, resources, living things and things in their local environment. They suggest how the environment affects them and other living things.

Students pose and respond to questions about familiar objects and events and predict outcomes of investigations. They use their senses to explore the world around them and record informal measurements to make and compare observations. They record, sort and represent their observations and communicate their ideas to others.

Levels 3 and 4

Levels 3 and 4 Description

In Levels 3 and 4, the curriculum focus is on recognising questions that can be investigated scientifically and undertaking investigations. Students observe heat and its effects on solids and liquids and begin to develop an understanding of energy flows through simple systems. In observing day and night, and investigating the life cycles of living things, they develop an understanding of the...

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Levels 3 and 4 Content Descriptions

Science Understanding

Science as a human endeavour Elaborations
  1. Science knowledge helps people to understand the effects of their actions (VCSSU056)
    1. considering how the use of materials including solids and liquids can affect the environment in different ways, for example, fertilisers and food and drink containers
    2. exploring how science has contributed to understanding and resolving issues related to the effects of human activities, for example, clearing of bushland to build housing and roads and management of waste
    3. investigating how people can use science to select appropriate materials for their work, for example, builders, clothing designers, engineers, gardeners and chefs
Biological sciences Elaborations
  1. Living things can be grouped on the basis of observable features and can be distinguished from non-living things (VCSSU057)
    1. exploring differences between living, once living and products of living things
    2. identifying variations in the features of plants, for example, colour and shape of leaves, or types of flowers
    3. identifying variations in the features of animals, for example, body covering, ear shapes or number of legs
  2. Different living things have different life cycles and depend on each other and the environment to survive (VCSSU058)
    1. making and recording observations of living things as they develop through their life cycles, for example, insects, birds, frogs and flowering plants
    2. recognising that environmental factors can affect life cycles, for example, fire and seed germination
    3. investigating the roles of living things in a habitat, for example, producers, consumers or decomposers
    4. predicting the effects when living things in feeding relationships are removed or die out in an area
Chemical sciences Elaborations
  1. A change of state between solid and liquid can be caused by adding or removing heat (VCSSU059)
    1. investigating how liquids and solids respond to changes in temperature, for example water changing to ice, or melting chocolate
    2. exploring how changes from solid to liquid and liquid to solid can help us recycle materials
  2. Natural and processed materials have a range of physical properties; these properties can influence their use (VCSSU060)
    1. describing a range of common materials, such as metals or plastics, and their uses
    2. investigating a particular property across a range of materials
    3. selecting materials for a specified use based on their properties
Earth and space sciences Elaborations
  1. Earth’s rotation on its axis causes regular changes, including night and day (VCSSU061)
    1. modelling the relative sizes and movement of the Sun, Earth and Moon
    2. describing timescales for the rotation of the Earth
    3. constructing sundials and investigating how they work
  2. Earth’s surface changes over time as a result of natural processes and human activity (VCSSU062)
    1. considering how different human activities cause erosion of Earth's surface
    2. considering the effect of events such as floods and extreme weather on landscapes
    3. exploring a local area that has changed as a result of natural processes, for example, an eroded gully, sand dunes or river banks
Physical sciences Elaborations
  1. Heat can be produced in many ways and can move from one object to another; a change in the temperature of an object is related to the gain or loss of heat by the object (VCSSU063)
    1. describing how heat can be produced, for example, through friction or by burning
    2. exploring how heat can be transferred through conduction
    3. recognising that we can feel heat and measure its effects using a thermometer
  2. Forces can be exerted by one object on another through direct contact or from a distance (VCSSU064)
    1. exploring how non-contact forces are similar to contact forces in terms of objects pushing and pulling another object
    2. investigating the effect of forces on the behaviour of an object through different actions, for example, throwing, dropping, bouncing and rolling
    3. comparing and contrasting the effect of friction on different surfaces, for example, the abrasion of tyres and shoes on a range of surfaces
    4. exploring the forces of attraction and repulsion between magnets

Science Inquiry Skills

Questioning and predicting Elaborations
  1. With guidance, identify questions in familiar contexts that can be investigated scientifically and predict what might happen based on prior knowledge (VCSIS065)
    1. listing shared experiences as a whole class and identifying possible investigations
    2. reflecting on familiar situations to make predictions with teacher guidance
Planning and conducting Elaborations
  1. Suggest ways to plan and conduct investigations to find answers to questions including consideration of the elements of fair tests (VCSIS066)
    1. working in groups, with teacher guidance, to plan ways to investigate questions and evaluating which ways might be most successful
    2. exploring, with teacher guidance, different ways to conduct investigations and connecting these to the types of questions asked
  2. Safely use appropriate materials, tools, equipment and technologies (VCSIS067)
    1. discussing and recording safety rules for use of equipment as a whole class
    2. using a variety of tools to make observations, for example, digital cameras, thermometers, rulers and scales
Recording and processing Elaborations
  1. Use formal measurements in the collection and recording of observations (VCSIS068)
    1. making and recording measurements using familiar formal units and appropriate abbreviations, such as seconds (s), grams (g), centimetres (cm) and millilitres (mL)
  2. Use a range of methods including tables and column graphs to represent data and to identify patterns and trends (VCSIS069)
    1. using provided tables to organise materials and objects based on observable properties
    2. discussing with teacher guidance which graphic organisers will be most useful in sorting or organising data arising from investigations
    3. discussing how to graph data presented in a table
    4. identifying and discussing numerical and visual patterns in data collected from students' investigations and from other sources
Analysing and evaluating Elaborations
  1. Compare results with predictions, suggesting possible reasons for findings (VCSIS070)
    1. identifying and discussing numerical and visual patterns in data collected from students’ investigations and from other sources
    2. discussing how well predictions matched results from an investigation
    3. comparing, in small groups, results of investigations and accounting for differences, including explanation of their reasoning
  2. Reflect on an investigation, including whether a test was fair or not (VCSIS071)
    1. discussing as a whole class the idea of fairness in testing
    2. discussing which aspects of the investigation helped improve fairness, and any aspects that weren't fair
    3. reflecting on investigations, identifying what went well, what was difficult or didn't work so well, and how well the investigation helped answer the question
Communicating Elaborations
  1. Represent and communicate observations, ideas and findings to show patterns and relationships using formal and informal scientific language (VCSIS072)
    1. using simple explanations and arguments, reports or graphical representations to communicate ideas to other students
    2. communicating with other students carrying out similar investigations to share experiences and improve investigation skills

Levels 3 and 4 Achievement Standard

By the end of Level 4, students describe situations where science understanding can influence their own and others’ actions. They explain the effects of Earth’s rotation on its axis. They distinguish between temperature and heat and use examples to illustrate how heat is produced and transferred. They explain how heat is involved in changes of state between solid and liquid. They link the physical properties of materials to their use. They discuss how natural and human processes cause changes to Earth’s surface. They use contact and non-contact forces to describe interactions between objects. They group living things based on observable features and distinguish them from non-living things. They describe relationships that assist the survival of living things. They compare the key stages in the life cycle of a plant and an animal and relate life cycles to growth and survival.

Students describe how they use science investigations to identify patterns and relationships and to respond to questions. They follow instructions to identify questions that they can investigate about familiar contexts and make predictions based on prior knowledge. They discuss ways to conduct investigations and suggest why a test was fair or not. They safely use equipment to make and record formal measurements and observations. They use provided tables and column graphs to organise and identify patterns and trends in data. Students suggest explanations for observations and compare their findings with their predictions. They use formal and informal scientific language to communicate their observations, methods and findings.

Levels 5 and 6

Levels 5 and 6 Description

In Levels 5 and 6, the curriculum focus is on recognising questions that can be investigated scientifically and undertaking investigations. Students explore how changes can be classified in different ways. Students are introduced to cause-and-effect relationships that relate to form and function through an exploration of adaptations of living things. They explore observable phenomena associated...

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Levels 5 and 6 Content Descriptions

Science Understanding

Science as a human endeavour Elaborations
  1. Scientific understandings, discoveries and inventions are used to inform personal and community decisions and to solve problems that directly affect people’s lives (VCSSU073)
    1. exploring objects and devices that include parts that involve the reflection, absorption or refraction of light, for example, mirrors, sunglasses and prisms
    2. considering how electricity and electrical appliances have changed the way some people live
    3. considering how decisions are made to grow particular plants and crops depending on environmental conditions
    4. considering how guidelines help to ensure the safe use of electrical devices
    5. comparing the benefits of using solid, liquid or gaseous fuels to heat a home
    6. designing shelters for living things that are exposed to changed or harsh environments, for example, as a result of bushfire or displacement
Biological sciences Elaborations
  1. Living things have structural features and adaptations that help them to survive in their environment (VCSSU074)
    1. explaining how particular adaptations aid survival, for example, nocturnal behaviour, silvery coloured leaves of dune plants
    2. describing and listing adaptations of living things suited for particular Australian environments
  2. The growth and survival of living things are affected by the physical conditions of their environment (VCSSU075)
    1. observing the growth of fungi, for example, yeast and bread mould in different temperature conditions
    2. investigating how changing the physical conditions for plants impacts on their growth and survival, for example, changing salt water concentrations, using fertilisers or transferring to a different soil type
    3. researching organisms that live in extreme environments, for example, Antarctica, a desert or deep sea
Chemical sciences Elaborations
  1. Solids, liquids and gases behave in different ways and have observable properties that help to classify them (VCSSU076)
    1. exploring the way solids, liquids and gases change under different situations, for example, heating and cooling
    2. observing that gases have mass and take up space, demonstrated by using balloons or bubbles
    3. recognising that not all substances can be easily classified as solids, liquids or gases on the basis of their observable properties
  2. Changes to materials can be reversible, including melting, freezing, evaporating, or irreversible, including burning and rusting (VCSSU077)
    1. investigating the three changes of state in water
    2. investigating irreversible changes, for example, rusting, burning and cooking
    3. exploring how reversible changes can be used to recycle materials
Earth and space sciences Elaborations
  1. Earth is part of a system of planets orbiting around a star (the Sun) (VCSSU078)
    1. identifying the planets of the solar system and comparing how long they take to orbit the Sun
    2. modelling the relative size of and distance between Earth, other planets in the solar system and the sun
  2. Sudden geological changes or extreme weather conditions can affect Earth’s surface (VCSSU079)
    1. investigating major geological events, for example, earthquakes, volcanic eruptions and tsunamis
    2. recognising that earthquakes can cause tsunamis
    3. considering the effect of drought on living and non-living aspects of the environment
Physical sciences Elaborations
  1. Light from a source forms shadows and can be absorbed, reflected and refracted (VCSSU080)
    1. classifying materials as transparent, opaque or translucent based on the extent to which light passes through them or is absorbed
    2. exploring the use of mirrors to demonstrate the reflection of light
    3. recognising the refraction of light at the surfaces of different transparent materials, for example, when light travels from air to water or air to glass
    4. recognising that the colour of an object depends on the properties of the object and the colour of the light source
  2. Energy from a variety of sources can be used to generate electricity; electric circuits enable this energy to be transferred to another place and then to be transformed into another form of energy (VCSSU081)
    1. recognising the need for a complete circuit to allow the flow of electricity
    2. exploring circuit features, for example, wires and switches, and electrical devices, for example, light globes, LEDs and motors
    3. investigating different electrical conductors and insulators
    4. investigating how moving air and water can turn turbines to generate electricity
    5. investigating how solar panels can generate electricity

Science Inquiry Skills

Questioning and predicting Elaborations
  1. With guidance, pose questions to clarify practical problems or inform a scientific investigation, and predict what the findings of an investigation might be based on previous experiences or general rules (VCSIS082)
    1. exploring a range of questions that can be asked about a problem or phenomena and, with guidance, identifying those questions that could be investigated by students
    2. refining questions to enable scientific investigation
    3. applying experience from previous investigations to predict the outcomes of investigations in new contexts
Planning and conducting Elaborations
  1. With guidance, plan appropriate investigation types to answer questions or solve problems and use equipment, technologies and materials safely, identifying potential risks (VCSIS083)
    1. following a given procedure to design an experimental or field investigation
    2. experiencing a range of ways of investigating questions, including experimental testing, creating models, internet research, field observations, simulations and trial and error methods
    3. discussing the advantages and disadvantages of certain types of investigation for answering certain types of questions
    4. discussing possible hazards involved in conducting investigations, and how these risks can be reduced
  2. Decide which variables should be changed, measured and controlled in fair tests and accurately observe, measure and record data (VCSIS084)
    1. discussing in groups how investigations can be made as fair as possible
    2. using tools and digital technologies to accurately measure objects and events in investigation and exploring which tools provide the most accurate measurements
    3. using digital technologies to make accurate measurements and record data
Recording and processing Elaborations
  1. Construct and use a range of representations, including tables and graphs, to record, represent and describe observations, patterns or relationships in data (VCSIS085)
    1. using familiar units such as grams, seconds and metres and developing the use of standard multipliers such as kilometres and millimetres
    2. using digital technologies to record data as digital images or in spreadsheets and to present data in tables and simple graphs
    3. using digital technologies to construct representations, including dynamic representations
Analysing and evaluating Elaborations
  1. Compare data with predictions and use as evidence in developing explanations (VCSIS086)
    1. discussing the difference between data and evidence
    2. referring to evidence when explaining the outcomes of an investigation
    3. sharing ideas as to whether observations match predictions, and discussing possible reasons for predictions being incorrect
  2. Suggest improvements to the methods used to investigate a question or solve a problem (VCSIS087)
    1. working collaboratively to identify where testing was not fair and suggesting how fairness could be improved
    2. identifying improvements to investigation methods, and discussing how these improvements would affect the quality of the data obtained
Communicating Elaborations
  1. Communicate ideas and processes using evidence to develop explanations of events and phenomena and to identify simple cause-and-effect relationships (VCSIS088)
    1. discussing how models represent scientific ideas and constructing physical models to demonstrate an aspect of scientific understanding
    2. using a variety of communication modes, for example, reports, explanations, arguments, debates and procedural accounts, to communicate science ideas
    3. using labelled diagrams, including cross-sectional representations, to communicate ideas and processes

Levels 5 and 6 Achievement Standard

By the end of Level 6, students explain how scientific knowledge is used in decision making and develops from many people’s contributions. They discuss how scientific understandings, discoveries and inventions affect peoples’ lives. They compare the properties and behaviours of solids, liquids and gases. They compare observable changes to materials and classify these changes as reversible or irreversible. They explain everyday phenomena associated with the absorption, reflection and refraction of light. They compare different ways in which energy can be transformed from one form to another to generate electricity and evaluate their suitability for particular purposes. They construct electric circuits and distinguish between open and closed circuits. They explain how natural events cause rapid change to Earth’s surface and use models to describe the key features of our Solar System. They analyse how structural and behavioural adaptations of living things enhance their survival, and predict and describe the effect of environmental changes on individual living things.

Students follow procedures to develop questions that they can investigate and design investigations into simple cause-and-effect relationships. When planning experimental methods, they identify and justify the variables they choose to change and measure in fair tests. They make predictions based on previous experiences or general rules. They identify and manage potential safety risks. They make and record accurate observations as tables, diagrams or descriptions. They organise data into tables and graphs to identify and analyse patterns and relationships. They compare patterns in data with their predictions when explaining their findings. They suggest where improvements to their experimental methods or research could improve the quality of their data. They refer to data when they report findings and use appropriate representations and simple reports to communicate their ideas, methods, findings and explanations.

Levels 7 and 8

Levels 7 and 8 Description

In Levels 7 and 8, the curriculum focus is on explaining phenomena involving science and its applications. Students explain the role of classification in ordering and organising information about living and non-living things. They classify the diversity of life on Earth into major taxonomic groups and consider how the classification of renewable and non-renewable resources depends on the timescale...

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Levels 7 and 8 Content Descriptions

Science Understanding

Science as a human endeavour Elaborations
  1. Scientific knowledge and understanding of the world changes as new evidence becomes available; science knowledge can develop through collaboration and connecting ideas across the disciplines and practice of science (VCSSU089)
    1. investigating how advances in telescopes and space probes have provided new evidence about space
    2. investigating how the development of microscopes has changed understanding of cell function and malfunction, and how this has led to improved medical treatments for disease
    3. investigating how knowledge of the location and extraction of mineral resources relies on expertise from across the disciplines of science
    4. considering how advances in technology, combined with scientific understanding of the functioning of body systems, has enabled organ repair and replacement
    5. investigating how land management practices of Aboriginal and Torres Strait Islander peoples can help inform sustainable management of the environment
  2. Science and technology contribute to finding solutions to a range of contemporary issues; these solutions may impact on other areas of society and involve ethical considerations (VCSSU090)
    1. considering decisions made in relation to the recycling of greywater and blackwater
    2. investigating strategies implemented to maintain part of the local environment, such as bushland, a beach, a lake, a desert or a shoreline
    3. investigating the development of vehicles over time, including the application of science and technology to the designs of solar-powered or electric vehicles
    4. relating regulations about wearing seatbelts or safety helmets to knowledge of forces and motion
    5. discussing ethical issues that arise from organ transplantation
Biological sciences Elaborations
  1. There are differences within and between groups of organisms; classification helps organise this diversity (VCSSU091)
    1. grouping a variety of organisms on the basis of similarities and differences in particular features
    2. classifying using hierarchical systems, for example, kingdom, phylum, class, order, family, genus, species
    3. using scientific conventions for naming species
    4. using provided keys to identify organisms surveyed in a local habitat
  2. Cells are the basic units of living things and have specialised structures and functions (VCSSU092)
    1. examining a variety of cells using a light microscope, by digital technology or by viewing a simulation
    2. distinguishing plant cells from animal and fungal cells
    3. identifying structures within cells and describing their function
    4. recognising that some organisms consist of a single cell
  3. Interactions between organisms can be described in terms of food chains and food webs and can be affected by human activity (VCSSU093)
    1. constructing and interpreting food chains and food webs to show relationships between organisms in an environment
    2. recognising the role of microorganisms within food chains and food webs
    3. researching examples of human impacts on specific ecosystems, for example, the use of fire by traditional Aboriginal people, the effects of palm oil harvesting, deforestation, agricultural practices or the introduction of new species
  4. Multicellular organisms contain systems of organs that carry out specialised functions that enable them to survive and reproduce (VCSSU094)
    1. examining the specialised cells and tissues involved in structure and function of particular organs
    2. describing the structure of each organ in a system and relating its function to the overall function of the system
    3. identifying the organs and overall function of a system of a multicellular organism in supporting life processes
    4. comparing reproductive systems of organisms
    5. comparing similar systems in different organisms, for example, digestive systems in herbivores and carnivores, respiratory systems in fish and mammals
Chemical sciences Elaborations
  1. Mixtures, including solutions, contain a combination of pure substances that can be separated using a range of techniques (VCSSU095)
    1. recognising the differences between pure substances and mixtures and identifying examples of each
    2. identifying the solvent and solute in solutions
    3. investigating and using a range of physical separation techniques such as filtration, decantation, evaporation, crystallisation, chromatography and distillation
    4. exploring and comparing separation methods used in the home
  2. The properties of the different states of matter can be explained in terms of the motion and arrangement of particles (VCSSU096)
    1. modelling the arrangement of particles in solids, liquids and gases
    2. using the particle model to distinguish between the properties of liquid water, ice and steam
  3. Differences between elements, compounds and mixtures can be described by using a particle model (VCSSU097)
    1. modelling the arrangement of particles in elements and compounds
    2. recognising that elements and simple compounds can be represented by symbols and formulas
    3. explaining why elements and compounds can be represented by chemical formulas while mixtures cannot
  4. Chemical change involves substances reacting to form new substances (VCSSU098)
    1. identifying the differences between chemical and physical changes
    2. identifying evidence that a chemical change has taken place
    3. investigating simple reactions, for example, combining elements to make a compound
Earth and space sciences Elaborations
  1. Predictable phenomena on Earth, including seasons and eclipses, are caused by the relative positions of the Sun, Earth and the Moon (VCSSU099)
    1. comparing times for the rotation of Earth, Sun and Moon, and comparing the times for the orbits of Earth and the Moon
    2. modelling the relative movements of the Earth, Sun and Moon and how natural phenomena such as solar and lunar eclipses and phases of the Moon occur
    3. explaining why different regions of Earth experience different seasonal conditions
  2. Some of Earth’s resources are renewable, but others are non-renewable (VCSSU100)
    1. considering what is meant by the term ‘renewable’ in relation to the Earth’s resources
    2. considering timescales for regeneration of resources
  3. Water is an important resource that cycles through the environment (VCSSU101)
    1. considering the water cycle in terms of changes of state of water
    2. investigating factors that influence the water cycle in nature
    3. exploring how human management of water impacts on the water cycle
  4. Sedimentary, igneous and metamorphic rocks contain minerals and are formed by processes that occur within Earth over a variety of timescales (VCSSU102)
    1. recognising that rocks are a collection of different minerals
    2. considering the role of forces and energy in the formation of different types of rocks and minerals
    3. identifying a range of common rock types using keys based on observable physical and chemical properties
Physical sciences Elaborations
  1. Change to an object’s motion is caused by unbalanced forces acting on the object; Earth’s gravity pulls objects towards the centre of Earth (VCSSU103)
    1. investigating the effects of applying different forces to familiar objects
    2. investigating common situations where forces are balanced and unbalanced, for example, stationary and falling objects
    3. investigating a simple machine such as a lever or a pulley system
    4. exploring how gravity affects objects on the surface of Earth
  2. Energy appears in different forms including movement (kinetic energy), heat, light, chemical energy and potential energy; devices can change energy from one form to another (VCSSU104)
    1. recognising that kinetic energy is the energy possessed by moving bodies
    2. recognising that potential energy is stored energy, for example, gravitational, chemical and elastic energy
    3. using flow diagrams to illustrate changes between different forms of energy
    4. investigating the energy transformations in devices, for example, a catapult or a water wheel
  3. Light can form images using the reflective feature of curved mirrors and the refractive feature of lenses, and can disperse to produce a spectrum which is part of a larger spectrum of radiation (VCSSU105)
    1. exploring how images can change when the arrangement of the mirror or lens system is altered
    2. exploring the mechanism of the human eye and corrective technologies
    3. observing the spread and order of colours in the visible spectrum
    4. describing the different types of radiation in the larger spectrum of radiation
  4. The properties of sound can be explained by a wave model (VCSSU106)
    1. describing how sounds are produced by different musical instruments
    2. measuring the speed of sound
    3. using a wave model to describe the measured properties of sound, wavelength and frequency

Science Inquiry Skills

Questioning and predicting Elaborations
  1. Identify questions, problems and claims that can be investigated scientifically and make predictions based on scientific knowledge (VCSIS107)
    1. considering whether an investigation using available resources is possible when identifying questions or problems to investigate
    2. using information and knowledge from their own investigations and secondary sources to predict the expected results from an investigation
    3. recognising that the solution of some questions and problems may require consideration of social, cultural, economic or moral factors in addition to results from scientific investigation
Planning and conducting Elaborations
  1. Collaboratively and individually plan and conduct a range of investigation types, including fieldwork and experiments, ensuring safety and ethical guidelines are followed (VCSIS108)
    1. identifying whether the use of their own observations and experiments or the use of other research materials is appropriate for their investigation
    2. using simulations and identifying their strengths and limitations
    3. developing strategies and techniques for effective research using secondary sources, including use of the internet
  2. In fair tests, measure and control variables, and select equipment to collect data with accuracy appropriate to the task (VCSIS109)
    1. taking into consideration all aspects of fair testing, available equipment, safe investigation and ethical considerations when planning investigations
    2. identifying and explaining the differences between controlled, dependent and independent variables
    3. using specialised equipment to increase the accuracy of measurement within an investigation
Recording and processing Elaborations
  1. Construct and use a range of representations including graphs, keys and models to record and summarise data from students’ own investigations and secondary sources, and to represent and analyse patterns and relationships (VCSIS110)
    1. understanding different types of diagrammatic, graphical and physical representations and considering their strengths and limitations
    2. comparing and contrasting data from a number of sources in order to create a summary of collected data
    3. using diagrammatic representations to convey abstract ideas and to simplify complex situations
Analysing and evaluating Elaborations
  1. Use scientific knowledge and findings from investigations to identify relationships, evaluate claims and draw conclusions (VCSIS111)
    1. identifying data that provides evidence to support or refute the hypothesis being tested
    2. drawing conclusions based on a range of evidence including from primary and secondary sources
  2. Reflect on the method used to investigate a question or solve a problem, including evaluating the quality of the data collected, and identify improvements to the method (VCSIS112)
    1. identifying and considering indicators of the quality of the data when analysing results
    2. discussing investigation methods with others to share ideas about the quality of the inquiry processes used
    3. suggesting improvements to investigation methods that would improve the accuracy of the data recorded
Communicating Elaborations
  1. Communicate ideas, findings and solutions to problems including identifying impacts and limitations of conclusions and using appropriate scientific language and representations (VCSIS113)
    1. using digital technologies to access information, to communicate and collaborate with others on and off site and to present science ideas
    2. selecting and using appropriate language and representations to communicate science ideas within a specified text type and for a specified audience

Levels 7 and 8 Achievement Standard

By the end of Level 8, students explain how evidence has led to an improved understanding of a scientific idea. They discuss how science knowledge can be applied to generate solutions to contemporary problems and explain how these solutions may impact on society. They investigate different forms of energy and explain how energy transfers and transformations cause change in simple systems. They use examples to illustrate how light forms images. They use a wave model to explain the properties of sound. They use the particle model to predict, compare and explain the physical and chemical properties and behaviours of substances. They describe and apply techniques to separate pure substances from mixtures. They provide evidence for observed chemical changes in terms of colour change, heat change, gas production and precipitate formation. They analyse the relationship between structure and function at cell, organ and body system levels. They identify and classify living things. They explain how living organisms can be classified into major taxonomic groups based on observable similarities and differences. They predict the effect of environmental changes on feeding relationships between...

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Levels 9 and 10

Levels 9 and 10 Description

In Levels 9 and 10, the curriculum focus is on explaining phenomena involving science and its applications. Students consider both classic and contemporary science contexts to explain the operation of systems at a range of scales. At a microscopic scale, they consider the atom as a system of protons, electrons and neutrons, and understand how this system can change through nuclear decay. They...

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Levels 9 and 10 Content Descriptions

Science Understanding

Science as a human endeavour Elaborations
  1. Scientific understanding, including models and theories, are contestable and are refined over time through a process of review by the scientific community (VCSSU114)
    1. considering how ideas about disease transmission have changed from medieval time to the present as knowledge has developed
    2. investigating the historical development of models of the structure of the atom
    3. investigating how the theory of plate tectonics developed, based on evidence from seafloor spreading and occurrence of earthquakes and volcanic activity
    4. recognising the contribution of Australian scientists, for example, Brian Schmidt and Penny Sackett, in the exploration and study of the Universe
  2. Advances in scientific understanding often rely on developments in technology and technological advances are often linked to scientific discoveries (VCSSU115)
    1. considering how the properties of electromagnetic radiation relate to its uses, for example, radar, medical diagnosis and treatment, mobile phone communications and microwave cooking
    2. considering how information technology can be applied to different areas of science, for example, bioinformatics, the Square Kilometre Array, DNA sequencing and the analysis of radio astronomy signals
    3. considering how computer modelling and imaging technologies has improved knowledge and predictability of phenomena, for example, climate change, atmospheric pollution, plate tectonic movement, and body system functions and interactions
  3. The values and needs of contemporary society can influence the focus of scientific research (VCSSU116)
    1. investigating how social actions have led to changed government policies and social behavioural change in relation to the use of chlorofluorocarbons (CFCs) in aerosol spray cans
    2. considering how choices related to the use of fuels are influenced by environmental, social and political considerations
    3. considering the use of genetic testing for decisions such as genetic counselling, embryo selection, identification of carriers of genetic mutations and the use of this information for personal use or by organisation such as insurance companies or medical facilities
Biological sciences Elaborations
  1. Multicellular organisms rely on coordinated and interdependent internal systems to respond to changes to their environment (VCSSU117)
    1. describing how the requirements for life (oxygen, nutrients, water and removal of waste) are provided through the coordinated function of body systems, for example, the respiratory, circulatory, digestive, nervous and excretory systems
    2. explaining (using models, flow diagrams or simulations) how body systems work together to maintain a functioning body
    3. investigating the response of the body to changes as a result of the presence of micro-organisms
  2. An animal’s response to a stimulus is coordinated by its central nervous system (brain and spinal cord); neurons transmit electrical impulses and are connected by synapses (VCSSU118)
    1. identifying functions for different areas of the brain
    2. modelling the 'knee jerk' reaction and explaining why it is a reflex action
    3. identifying responses involving the nervous and endocrine systems
    4. researching the causes and effects of spinal cord damage
  3. The transmission of heritable characteristics from one generation to the next involves DNA and genes (VCSSU119)
    1. using models and diagrams to represent the relationship between DNA, genes and chromosomes
    2. describing mutations as changes in DNA or chromosomes and outlining the factors that contribute to causing mutations
    3. recognising that genetic information passed on to offspring is from both parents and involves the processes of fertilisation and meiosis
    4. representing patterns of inheritance of a simple dominant/recessive characteristic through generations of a family
  4. The theory of evolution by natural selection explains the diversity of living things and is supported by a range of scientific evidence (VCSSU120)
    1. describing biodiversity as a function of evolution
    2. outlining processes involved in natural selection including variation, isolation and selection
    3. investigating changes caused by natural selection in a particular population as a result of a specified selection pressure, for example, artificial selection in breeding for desired characteristics
    4. evaluating and interpreting evidence for evolution, including the fossil record, chemical and anatomical similarities, and the geographical distribution of species
  5. Ecosystems consist of communities of interdependent organisms and abiotic components of the environment; matter and energy flow through these systems (VCSSU121)
    1. exploring interactions between organisms, for example, predator/prey, parasites, competitors, pollinators and disease vectors
    2. using modelling to examine factors that affect population sizes, for example, seasonal changes, destruction of habitats, introduced species
    3. investigating how ecosystems change as a result of environmental change, for example, bushfires, drought and flooding
Chemical sciences Elaborations
  1. All matter is made of atoms which are composed of protons, neutrons and electrons; natural radioactivity arises from the decay of nuclei in atoms (VCSSU122)
    1. describing and modelling the structure of atoms in terms of the nucleus, protons, neutrons and electrons
    2. comparing the mass and charge of protons, neutrons and electrons
    3. describing in simple terms how alpha and beta particles and gamma radiation are released from unstable atoms
  2. The atomic structure and properties of elements are used to organise them in the periodic table (VCSSU123)
    1. describing the structure of atoms in terms of electron shells
    2. explaining how the electronic structure of an atom determines its position in the periodic table and its properties
    3. investigating the chemical activity of metals
  3. Chemical reactions involve rearranging atoms to form new substances; during a chemical reaction mass is not created or destroyed (VCSSU124)
    1. modelling chemical reactions in terms of rearrangement of atoms
    2. considering the role of energy in chemical reactions
    3. recognising that the conservation of mass in a chemical reaction can be demonstrated by simple chemical equations
  4. Different types of chemical reactions are used to produce a range of products and can occur at different rates; chemical reactions may be represented by balanced chemical equations (VCSSU125)
    1. investigating how chemical reactions result in the production of a range of useful substances, for example, fuels, metals and pharmaceuticals
    2. using word or symbol equations to represent chemical reactions
    3. investigating the effect of a range of factors, for example, temperature and catalysts, on the rate of chemical reactions
  5. Chemical reactions, including combustion and the reactions of acids, are important in both non-living and living systems and involve energy transfer (VCSSU126)
    1. investigating a range of different reactions to classify them as exothermic or endothermic
    2. comparing respiration and photosynthesis and their role in biological processes
    3. investigating reactions of acids with metals, bases, and carbonates
Earth and space sciences Elaborations
  1. The theory of plate tectonics explains global patterns of geological activity and continental movement (VCSSU127)
    1. recognising the major plates on a world map
    2. considering the role of heat energy and convection currents in the movement of tectonic plates
    3. modelling sea-floor spreading
    4. relating the occurrence of earthquakes and volcanic activity to constructive and destructive plate boundaries
    5. relating the extreme age and stability of a large part of the Australian continent to its plate tectonic history
  2. Global systems, including the carbon cycle, rely on interactions involving the atmosphere, biosphere, hydrosphere and lithosphere (VCSSU128)
    1. modelling a nutrient cycle within the biosphere, for example, the carbon, nitrogen or phosphorus cycle
    2. investigating how human activity affects global systems
    3. distinguishing between 'natural' and 'enhanced' greenhouse effects
    4. investigating the effect of climate change on sea levels and biodiversity
  3. The Universe contains features including galaxies, stars and solar systems; the Big Bang theory can be used to explain the origin of the Universe (VCSSU129)
    1. identifying the evidence supporting the Big Bang theory, for example, Edwin Hubble’s observations and the detection of microwave radiation
    2. recognising that the age of the Universe can be derived by applying knowledge of the Big Bang theory
    3. describing how the evolution of the Universe, including the formation of galaxies and stars, has continued since the Big Bang
Physical sciences Elaborations
  1. 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)
    1. investigating parallel and series circuits and measuring voltage drops across and currents through various components
    2. investigating the properties of components such as LEDs, and temperature and light sensors
    3. comparing circuit design to household wiring
    4. exploring the use of sensors in robotics and control devices
  2. 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)
    1. investigating the action at a distance or the field model around magnets of different shapes
    2. investigating the movement of a magnet and a wire to produce electricity
    3. investigating the effect of a magnet on a current from a battery to produce movement
  3. Energy flow in Earth’s atmosphere can be explained by the processes of heat transfer (VCSSU132)
    1. recognising that the Law of Conservation of Energy explains that total energy is maintained in energy transfers and transformations
    2. recognising that in energy transfers and transformations, a number of steps can occur and the system is not 100% efficient so that usable energy is reduced
    3. comparing energy changes in physical events, for example, car crashes, the motion of pendulums, lifting and dropping
  4. The description and explanation of the motion of objects involves the interaction of forces and the exchange of energy and can be described and predicted using the laws of physics (VCSSU133)
    1. recognising that a stationary object, or a moving object with constant motion, has balanced forces acting on it
    2. gathering data to analyse everyday motion produced by forces, for example, measurements of distance and time, velocity, mass, acceleration and force
    3. investigating the effects of applying different forces, including Earth's gravitational force, to familiar objects

Science Inquiry Skills

Questioning and predicting Elaborations
  1. Formulate questions or hypotheses that can be investigated scientifically, including identification of independent, dependent and controlled variables (VCSIS134)
    1. formulating questions that can be investigated within the scope of the classroom or field with available resources
    2. developing ideas from students' own or others' investigations and experiences to investigate further
    3. revising and refining research questions to target specific information and data collection or finding a solution to the specific problem identified
Planning and conducting Elaborations
  1. Independently plan, select and use appropriate investigation types, including fieldwork and laboratory experimentation, to collect reliable data, assess risk and address ethical issues associated with these investigation types (VCSIS135)
    1. explaining the choice of variables to be controlled, changed and measured in an investigation
    2. identifying and managing potential hazards of chemicals or biological materials used in experimental investigations or fieldwork
    3. deciding how much data are needed to obtain reliable measurements
    4. using modelling and simulations, including using digital technologies, to investigate situations and events
    5. using the internet to facilitate collaboration in joint projects and discussions
  2. Select and use appropriate equipment and technologies to systematically collect and record accurate and reliable data, and use repeat trials to improve accuracy, precision and reliability (VCSIS136)
    1. applying specific skills in the use of scientific instruments
    2. selecting and using probes and data loggers to record information
    3. identifying how human error can influence the reliability of data
Recording and processing Elaborations
  1. Construct and use a range of representations, including graphs, keys, models and formulas, to record and summarise data from students’ own investigations and secondary sources, to represent qualitative and quantitative patterns or relationships, and distinguish between discrete and continuous data (VCSIS137)
    1. using spreadsheets to present data in tables and graphical forms and to carry out mathematical analyses of data
    2. designing and constructing appropriate graphs to represent data and to look for trends and patterns
Analysing and evaluating Elaborations
  1. Analyse patterns and trends in data, including describing relationships between variables, identifying inconsistencies in data and sources of uncertainty, and drawing conclusions that are consistent with evidence (VCSIS138)
    1. exploring relationships between variables using spreadsheets, databases, tables, charts, graphs and statistics
    2. describing data properties (for example mean, median, range, outliers, large gaps visible on a graph) and their significance for a particular investigation sample, acknowledging uncertainties
  2. Use knowledge of scientific concepts to evaluate investigation conclusions, including assessing the approaches used to solve problems, critically analysing the validity of information obtained from primary and secondary sources, suggesting possible alternative explanations and describing specific ways to improve the quality of data (VCSIS139)
    1. discussing what is meant by 'validity' and how we can evaluate the validity of information in secondary sources
    2. judging the validity of science-related media reports and how these reports might be interpreted by the public
    3. using primary or secondary scientific evidence to support or refute a conclusion or claim
    4. suggesting more than one possible explanation of the data presented
Communicating Elaborations
  1. Communicate scientific ideas and information for a particular purpose, including constructing evidence-based arguments and using appropriate scientific language, conventions and representations (VCSIS140)
    1. using secondary sources as well as students’ own findings to help explain a scientific concept
    2. using a range of representations, including mathematical and symbolic forms, to communicate science ideas
    3. presenting results and ideas using formal experimental reports, oral presentations, multimodal presentations, poster presentations and contributing to group discussions

Levels 9 and 10 Achievement Standard

By the end of Level 10, students analyse how models and theories have developed over time and discuss the factors that prompted their review. They predict how future applications of science and technology may affect people’s lives. They explain the concept of energy conservation and model energy transfer and transformation within systems. They analyse how biological systems function and respond to external changes with reference to the interdependencies between individual components, energy transfers and flows of matter. They evaluate the evidence for scientific theories that explain the origin of the Universe and the diversity of life on Earth. They explain the role of DNA and genes in cell division and genetic inheritance. They apply geological timescales to elaborate their explanations of both natural selection and evolution. They explain how similarities in the chemical behaviour of elements and their compounds and their atomic structures are represented in the way the periodic table has been constructed. They compare the properties of a range of elements representative of the major groups and periods in the periodic table. They use atomic symbols and balanced chemical equations...

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