ACMGM042
interpret, in context, the slope and intercept of a straight-line graph used to model and analyse a practical situation
ACMGM042 | Content Descriptions | Unit 2 | General Mathematics | Mathematics | Senior secondary curriculum
ACMGM092
fit a least-squares line to model long-term trends in time series data.
ACMGM092 | Content Descriptions | Unit 4 | General Mathematics | Mathematics | Senior secondary curriculum
ACMMM138
recognise uniform discrete random variables and use them to model random phenomena with equally likely outcomes
ACMMM138 | Content Descriptions | Unit 3 | Mathematical Methods | Mathematics | Senior secondary curriculum
ACMMM146
use Bernoulli random variables and associated probabilities to model data and solve practical problems.
ACMMM146 | Content Descriptions | Unit 3 | Mathematical Methods | Mathematics | Senior secondary curriculum
ACSPH017
The kinetic particle model describes matter as consisting of particles in constant motion, except at absolute zero
ACSPH017 | Content Descriptions | Unit 1 | Physics | Science | Senior secondary curriculum
ACSPH071
The mechanical wave model can be used to explain phenomena related to reflection and refraction (for example, echoes, seismic phenomena)
ACSPH071 | Content Descriptions | Unit 2 | Physics | Science | Senior secondary curriculum
ACSPH075
A ray model of light may be used to describe reflection, refraction and image formation from lenses and mirrors
ACSPH075 | Content Descriptions | Unit 2 | Physics | Science | Senior secondary curriculum
ACSPH146
High-energy particle accelerators are used to test theories of particle physics including the Standard Model
ACSPH146 | Content Descriptions | Unit 4 | Physics | Science | Senior secondary curriculum
ACSPH147
The Standard Model is used to describe the evolution of forces and the creation of matter in the Big Bang theory
ACSPH147 | Content Descriptions | Unit 4 | Physics | Science | Senior secondary curriculum
Structure Design and Technologies
The Australian Curriculum: Design and Technologies (F–10) comprises two related strands: Design and Technologies knowledge and understanding – the use, development and impact of technologies and design ideas across a range of technologies contexts Design …
Structure | Design and Technologies | Technologies | F-10 curriculum
Structure of Biology Biology
Units Biology is the study of the fascinating diversity of life as it has evolved and as it interacts and functions. Investigation of biological systems and their interactions, from cellular processes to ecosystem dynamics, has led to biological knowledge …
Structure of Biology | Biology | Science | Senior secondary curriculum
Structure of Chemistry Chemistry
Units In Chemistry, students develop their understanding of chemical systems, and how models of matter and energy transfers and transformations can be used to describe, explain and predict chemical structures, properties and reactions. There are four …
Structure of Chemistry | Chemistry | Science | Senior secondary curriculum
Outdoor learning
Outdoor learning | Portfolios | Curriculum connections | Resources
Problem-Solving
In F–2, students solve problems when they use mathematics to represent unfamiliar or meaningful situations. In Years 3–6, students solve problems when they use mathematics to represent unfamiliar or meaningful situations and plan their approaches. In Years 7–8, …
Problem-Solving | Portfolios | Mathematics proficiencies | Resources
Force and motion
In this portfolio, the student shows understanding of the factors that impact on the motion of a model car and of the mechanical forces acting on it. They use knowledge of material properties to improve performance. Students describe Newton’s Second Law …
Force and motion | Portfolios | STEM | Resources
Digital Technologies - Above satisfactory - Years 7 and 8
This portfolio of student work shows that the student can distinguish between different types of networks and defined purposes (WS5). The student explains how text, image and audio data can be represented, secured and presented in digital systems (WS2, …
Digital Technologies - Above satisfactory - Years 7 and 8 | Portfolios | Work samples | Resources
Digital Technologies - Satisfactory - Years 7 and 8
This portfolio of student work shows that the student can distinguish between different types of networks and defined purposes (WS5). The student explains how text, image and audio data can be represented, secured and presented in digital systems (WS2, …
Digital Technologies - Satisfactory - Years 7 and 8 | Portfolios | Work samples | Resources
Digital Technologies - Below satisfactory - Years 7 and 8
This portfolio of student work shows that the student can distinguish between different types of networks and defined purposes (WS5). The student explains how text, image and audio data can be represented, secured and presented in digital systems (WS2, …
Digital Technologies - Below satisfactory - Years 7 and 8 | Portfolios | Work samples | Resources
Languages: Indonesian - Satisfactory - Years 3 and 4
This portfolio of student work shows that the student can interact in classroom routines and structured interactions with teachers and peers (WS1). The student reproduces the sounds of au (for example, mau) and g (for example, gemuk) and the final sound k (for …
Languages: Indonesian - Satisfactory - Years 3 and 4 | Portfolios | Work samples | Resources
Science - Above satisfactory - Year 8
This portfolio of student work shows that the student can use the particle model to explain and predict the properties and behaviours of substances (WS1). The student identifies different forms of energy and describes how energy transfers and transformations …
Science - Above satisfactory - Year 8 | Portfolios | Work samples | Resources