MuS3

Figurative (imagined units) relies on perceptual markers to represent each group uses equal grouping and counting without individual items visible but needs to represent the groups before determining the total counts by twos, fives and tens, matching …

MuS3 | Multiplicative strategies | Number sense and algebra | National Numeracy Learning Progression | National Literacy and Numeracy Learning Progressions | Resources

MuS4

Repeated abstract composite units uses composite units in repeated addition and subtraction using the unit a specified number of times uses skip counting and may use fingers to keep track of the number of groups as the counting occurs determines …

MuS4 | Multiplicative strategies | Number sense and algebra | National Numeracy Learning Progression | National Literacy and Numeracy Learning Progressions | Resources

CoU3

Applying proportion interprets proportion as the equality of two ratios or rates uses common fractions and decimals for proportional division demonstrates how increasing one quantity in a ratio will affect the total proportion performs operations …

CoU3 | Comparing units (ratios, rates and proportion) | Number sense and algebra | National Numeracy Learning Progression | National Literacy and Numeracy Learning Progressions | Resources

UuM6

Identifying the structure of units draws and describes the column and row structure to represent area as an array, moving beyond counting of squares by ones calculates the total area using rows and/or columns as composite units uses familiar household …

UuM6 | Understanding units of measurement | Measurement and geometry | National Numeracy Learning Progression | National Literacy and Numeracy Learning Progressions | Resources

Outdoor learning

Outdoor learning | Portfolios | Curriculum connections | Resources

UnC5

Calculating probabilities describes the likelihood of events using a fraction or percentage interprets the odds of an event (odds of 5:1, the odds against rolling a 6, means a wager of $1 stands to win $5) explains how probability is not affected …

UnC5 | Understanding chance | Statistics and probability | National Numeracy Learning Progression | National Literacy and Numeracy Learning Progressions | Resources

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

ACMNA013

Recognise, model, read, write and order numbers to at least 100. Locate these numbers on a number line

Elaborations ScOT Terms

ACMNA013 | Content Descriptions | Year 1 | Mathematics | F-10 curriculum

ACMNA058

Model and represent unit fractions including 1/2, 1/4, 1/3, 1/5 and their multiples to a complete whole

Elaborations ScOT Terms

ACMNA058 | Content Descriptions | Year 3 | Mathematics | F-10 curriculum

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

ACSPH139

The Bohr model of the hydrogen atom integrates light quanta and atomic energy states to explain the specific wavelengths in the hydrogen spectrum and in the spectra of other simple atoms; the Bohr model enables line spectra to be correlated with atomic …

ACSPH139 | Content Descriptions | Unit 4 | Physics | Science | Senior secondary curriculum

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

ACMGM068

display the terms of an arithmetic sequence in both tabular and graphical form and demonstrate that arithmetic sequences can be used to model linear growth and decay in discrete situations

ACMGM068 | Content Descriptions | Unit 3 | General Mathematics | Mathematics | Senior secondary curriculum

ACMGM072

display the terms of a geometric sequence in both tabular and graphical form and demonstrate that geometric sequences can be used to model exponential growth and decay in discrete situations

ACMGM072 | Content Descriptions | Unit 3 | General Mathematics | Mathematics | Senior secondary curriculum

ACMGM097

use a recurrence relation to model a reducing balance loan and investigate (numerically or graphically) the effect of the interest rate and repayment amount on the time taken to repay the loan

ACMGM097 | Content Descriptions | Unit 4 | General Mathematics | Mathematics | Senior secondary curriculum