Science (Version 8.4)

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Understand how Science works

Rationale

Science provides an empirical way of answering interesting and important questions about the biological, physical and technological world. The knowledge it produces has proved to be a reliable basis for action in our personal, social and economic lives.

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Aims

The Australian Curriculum: Science aims to ensure that students develop:

an interest in science as a means of expanding their curiosity and willingness to explore, ask questions about and speculate on the changing world in which they live.

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Key ideas

In the Australian Curriculum: Science, there are six key ideas that represent key aspects of a scientific view of the world and bridge knowledge and understanding across the disciplines of science, as shown Figure 1 below. These are embedded within each year level description and guide the teaching/learning emphasis for the relevant year level.

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Structure

The three interrelated strands of science
The Australian Curriculum: Science has three interrelated strands: science understanding, science as a human endeavour and science inquiry skills.

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Content and achievement sequences

Resources and support materials for the Australian Curriculum: Science.

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Glossary

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Year 9

Year 9 Level Description

The science inquiry skills and science as a human endeavour strands are described across a two-year band. In their planning, schools and teachers refer to the expectations outlined in the achievement standard and also to the content of the science understanding strand for the relevant year level to ensure that these two strands are addressed over the two-year period. The three strands of the curriculum are interrelated and their content is taught in an integrated way. The order and detail in which the content descriptions are organised into teaching and learning programs are decisions to be made by the teacher.

Incorporating the key ideas of science

Over Years 7 to 10, students develop their understanding of microscopic and atomic structures, how systems at a range of scales are shaped by flows of energy and matter and interactions due to forces, and develop the ability to quantify changes and relative amounts.

In Year 9, students consider the operation of systems at a range of scales. They explore ways in which the human body as a system responds to its external environment and the interdependencies between biotic and abiotic components of ecosystems. They are introduced to the notion of the atom as a system of protons, electrons and neutrons, and how this system can change through nuclear decay. They learn that matter can be rearranged through chemical change and that these changes play an important role in many systems. They are introduced to the concept of the conservation of matter and begin to develop a more sophisticated view of energy transfer. They begin to apply their understanding of energy and forces to global systems such as continental movement.

Year 9 Content Descriptions

Science Understanding

Biological sciences

Multi-cellular organisms rely on coordinated and interdependent internal systems to respond to changes to their environment (ACSSU175 - Scootle )
Ecosystems consist of communities of interdependent organisms and abiotic components of the environment; matter and energy flow through these systems (ACSSU176 - Scootle )
  • Sustainability

Chemical sciences

All matter is made of atoms that are composed of protons, neutrons and electrons; natural radioactivity arises from the decay of nuclei in atoms (ACSSU177 - Scootle )
Chemical reactions involve rearranging atoms to form new substances; during a chemical reaction mass is not created or destroyed (ACSSU178 - Scootle )
Chemical reactions, including combustion and the reactions of acids, are important in both non-living and living systems and involve energy transfer (ACSSU179 - Scootle )
  • Sustainability

Earth and space sciences

The theory of plate tectonics explains global patterns of geological activity and continental movement (ACSSU180 - Scootle )
Numeracy

Using spatial reasoning
  • Interpret maps and diagrams

Physical sciences

Energy transfer through different mediums can be explained using wave and particle models (ACSSU182 - Scootle )

Science as a Human Endeavour

Nature and development of science

Scientific understanding, including models and theories, is contestable and is refined over time through a process of review by the scientific community (ACSHE157 - Scootle )
Ethical Understanding

Reasoning in decision making and actions
  • Reflect on ethical action

Understanding ethical concepts and issues
  • Explore ethical concepts in context

Advances in scientific understanding often rely on technological advances and are often linked to scientific discoveries (ACSHE158 - Scootle )

Use and influence of science

People use scientific knowledge to evaluate whether they accept claims, explanations or predictions, and advances in science can affect people’s lives, including generating new career opportunities (ACSHE160 - Scootle )
Values and needs of contemporary society can influence the focus of scientific research (ACSHE228 - Scootle )
Ethical Understanding

Understanding ethical concepts and issues
  • Explore ethical concepts in context

Science Inquiry Skills

Questioning and predicting

Formulate questions or hypotheses that can be investigated scientifically (ACSIS164 - Scootle )
Literacy

Word Knowledge
  • Understand learning area vocabulary

Composing texts through speaking, writing and creating
  • Compose spoken, written, visual and multimodal learning area texts
  • Compose texts

Text knowledge
  • Use knowledge of text structures

Critical and Creative Thinking

Inquiring – identifying, exploring and organising information and ideas
  • Pose questions

Reflecting on thinking and processes
  • Transfer knowledge into new contexts

Planning and conducting

Plan, select and use appropriate investigation types, including field work and laboratory experimentation, to collect reliable data; assess risk and address ethical issues associated with these methods (ACSIS165 - Scootle )
Ethical Understanding

Reasoning in decision making and actions
  • Reason and make ethical decisions

Literacy

Word Knowledge
  • Understand learning area vocabulary

Comprehending texts through listening, reading and viewing
  • Comprehend texts
  • Interpret and analyse learning area texts
  • Navigate, read and view learning area texts

Composing texts through speaking, writing and creating
  • Compose texts
  • Compose spoken, written, visual and multimodal learning area texts

Critical and Creative Thinking

Reflecting on thinking and processes
  • Reflect on processes

Generating ideas, possibilities and actions
  • Seek solutions and put ideas into action

Select and use appropriate equipment, including digital technologies, to collect and record data systematically and accurately (ACSIS166 - Scootle )
Information and Communication Technology (ICT) Capability

Managing and operating ICT
  • Select and use hardware and software

Investigating with ICT
  • Locate, generate and access data and information

Numeracy

Using measurement
  • Estimate and measure with metric units

Literacy

Composing texts through speaking, writing and creating
  • Compose spoken, written, visual and multimodal learning area texts
  • Compose texts

Comprehending texts through listening, reading and viewing
  • Comprehend texts
  • Navigate, read and view learning area texts
  • Interpret and analyse learning area texts

Word Knowledge
  • Understand learning area vocabulary

Processing and analysing data and information

Analyse patterns and trends in data, including describing relationships between variables and identifying inconsistencies (ACSIS169 - Scootle )
Literacy

Comprehending texts through listening, reading and viewing
  • Interpret and analyse learning area texts
  • Comprehend texts
  • Navigate, read and view learning area texts

Composing texts through speaking, writing and creating
  • Compose spoken, written, visual and multimodal learning area texts
  • Compose texts

Grammar knowledge
  • Use knowledge of sentence structures

Text knowledge
  • Use knowledge of text structures

Word Knowledge
  • Understand learning area vocabulary

Critical and Creative Thinking

Inquiring – identifying, exploring and organising information and ideas
  • Organise and process information

Numeracy

Interpreting statistical information
  • Interpret data displays

Recognising and using patterns and relationships
  • Recognise and use patterns and relationships

Use knowledge of scientific concepts to draw conclusions that are consistent with evidence (ACSIS170 - Scootle )
Critical and Creative Thinking

Analysing, synthesising and evaluating reasoning and procedures
  • Draw conclusions and design a course of action

Literacy

Grammar knowledge
  • Use knowledge of sentence structures

Composing texts through speaking, writing and creating
  • Compose spoken, written, visual and multimodal learning area texts
  • Compose texts

Comprehending texts through listening, reading and viewing
  • Navigate, read and view learning area texts
  • Comprehend texts
  • Interpret and analyse learning area texts

Text knowledge
  • Use knowledge of text structures

Word Knowledge
  • Understand learning area vocabulary

Evaluating

Evaluate conclusions, including identifying sources of uncertainty and possible alternative explanations, and describe specific ways to improve the quality of the data (ACSIS171 - Scootle )
Numeracy

Interpreting statistical information
  • Interpret data displays

Literacy

Word Knowledge
  • Understand learning area vocabulary

Comprehending texts through listening, reading and viewing
  • Interpret and analyse learning area texts
  • Comprehend texts
  • Navigate, read and view learning area texts

Composing texts through speaking, writing and creating
  • Compose texts
  • Compose spoken, written, visual and multimodal learning area texts

Grammar knowledge
  • Use knowledge of sentence structures

Text knowledge
  • Use knowledge of text structures

Critical and Creative Thinking

Analysing, synthesising and evaluating reasoning and procedures
  • Evaluate procedures and outcomes

Critically analyse the validity of information in primary and secondary sources and evaluate the approaches used to solve problems (ACSIS172 - Scootle )
Literacy

Word Knowledge
  • Understand learning area vocabulary

Comprehending texts through listening, reading and viewing
  • Interpret and analyse learning area texts
  • Comprehend texts
  • Navigate, read and view learning area texts

Critical and Creative Thinking

Analysing, synthesising and evaluating reasoning and procedures
  • Evaluate procedures and outcomes

Communicating

Communicate scientific ideas and information for a particular purpose, including constructing evidence-based arguments and using appropriate scientific language, conventions and representations (ACSIS174 - Scootle )
Literacy

Composing texts through speaking, writing and creating
  • Deliver presentations
  • Compose texts
  • Compose spoken, written, visual and multimodal learning area texts
  • Use language to interact with others

Word Knowledge
  • Understand learning area vocabulary
  • Use spelling knowledge

Text knowledge
  • Use knowledge of text cohesion
  • Use knowledge of text structures

Grammar knowledge
  • Use knowledge of words and word groups
  • Use knowledge of sentence structures

Visual Knowledge
  • Understand how visual elements create meaning

Critical and Creative Thinking

Analysing, synthesising and evaluating reasoning and procedures
  • Apply logic and reasoning

Year 9 Achievement Standards

Achievement Standard

By the end of Year 9, students explain chemical processes and natural radioactivity in terms of atoms and energy transfers and describe examples of important chemical reactions. They describe models of energy transfer and apply these to explain phenomena. They explain global features and events in terms of geological processes and timescales. They analyse how biological systems function and respond to external changes with reference to interdependencies, energy transfers and flows of matter. They describe social and technological factors that have influenced scientific developments and predict how future applications of science and technology may affect people’s lives.

Students design questions that can be investigated using a range of inquiry skills. They design methods that include the control and accurate measurement of variables and systematic collection of data and describe how they considered ethics and safety. They analyse trends in data, identify relationships between variables and reveal inconsistencies in results. They analyse their methods and the quality of their data, and explain specific actions to improve the quality of their evidence. They evaluate others’ methods and explanations from a scientific perspective and use appropriate language and representations when communicating their findings and ideas to specific audiences.

Year 9 Work Sample Portfolios