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

Science - 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 - Satisfactory - Year 8 | Portfolios | Work samples | Resources

Health and Physical Education - Above satisfactory - Years 7 and 8

This portfolio of student work shows that the student can describe a range of physical, social and moral changes that occur during puberty and identify how and why relationships change during this time (WS3). They provide detailed advice about managing …

Health and Physical Education - Above satisfactory - Years 7 and 8 | Portfolios | Work samples | Resources

Numeracy - Level 3 (Years 3 and 4)

Typically, by the end of Year 4, students: Understand and use numbers in context model, represent, order and use numbers up to five digits Interpret proportional reasoning visualise, describe and order tenths, hundredths, 1-place and 2-place decimals Interpret …

Numeracy - Level 3 (Years 3 and 4) | Knowledge and understanding | Dimensions | Curriculum connections | Resources

ACTDIP026

Analyse and visualise data using a range of software to create information, and use structured data to model objects or events

Elaborations ScOT Terms

ACTDIP026 | Content Descriptions | Years 7 and 8 | Digital Technologies | Technologies | F-10 curriculum

ACTDIP037

Analyse and visualise data to create information and address complex problems, and model processes, entities and their relationships using structured data

Elaborations ScOT Terms

ACTDIP037 | Content Descriptions | Years 9 and 10 | Digital Technologies | Technologies | F-10 curriculum

Mathematics - Year 1

Number and place value Develop confidence with number sequences to and from 100 by ones from any starting point. Skip count by twos, fives and tens starting from zero (ACMNA012) Recognise, model, read, write and order numbers to at least 100. Locate these …

Mathematics - Year 1 | Knowledge and understanding | Dimensions | Curriculum connections | Resources

Mathematics - Year 2

Number and place value Investigate number sequences, initially those increasing and decreasing by twos, threes, fives and tens from any starting point, then moving to other sequences (ACMNA026) Recognise, model, represent and order numbers to at least …

Mathematics - Year 2 | Knowledge and understanding | Dimensions | Curriculum connections | Resources

Numeracy - Level 6 (Years 9 and 10)

Typically, by the end of Year 10, students: Estimate and calculate solve and model problems involving complex data by estimating and calculating using a variety of efficient mental, written and digital strategies Use money evaluate financial plans to …

Numeracy - Level 6 (Years 9 and 10) | Competencies and skills | Dimensions | Curriculum connections | Resources

Mathematics - Year 2

Investigate number sequences, initially those increasing and decreasing by twos, threes, fives and tens from any starting point, then moving to other sequences (ACMNA026) Recognise, model, represent and order numbers to at least 1000 (ACMNA027) Group, …

Mathematics - Year 2 | Responsibility and enterprise | Dimensions | Curriculum connections | Resources

Elaboration ACMNA100

exploring techniques for multiplication such as the area model, the Italian lattice method or the partitioning of numbers

Elaboration | ACMNA100 | Content Descriptions | Year 5 | Mathematics | F-10 curriculum

Elaboration (1) ACMNA100

applying the distributive law and using arrays to model multiplication and explain calculation strategies

Elaboration (1) | ACMNA100 | Content Descriptions | Year 5 | Mathematics | F-10 curriculum

Elaboration ACMNA190

applying the distributive law to the expansion of algebraic expressions using strategies such as the area model

Elaboration | ACMNA190 | Content Descriptions | Year 8 | Mathematics | F-10 curriculum

Elaboration (3) ACSSU182

understanding the processes underlying convection and conduction in terms of the particle model

Elaboration (3) | ACSSU182 | Content Descriptions | Year 9 | Science | F-10 curriculum

Elaboration (1) ACSHE191

investigating the development of the Watson and Crick double helix model for the structure of DNA

Elaboration (1) | ACSHE191 | Content Descriptions | Year 10 | Science | F-10 curriculum

ACMGM043

construct and analyse a straight-line graph to model a given linear relationship; for example, modelling the cost of filling a fuel tank of a car against the number of litres of petrol required.

ACMGM043 | Content Descriptions | Unit 2 | General Mathematics | Mathematics | Senior secondary curriculum

ACMGM094

use a recurrence relation to model a compound interest loan or investment, and investigate (numerically or graphically) the effect of the interest rate and the number of compounding periods on the future value of the loan or investment

ACMGM094 | Content Descriptions | Unit 4 | General Mathematics | Mathematics | Senior secondary curriculum

ACSBL110

Homeostasis involves a stimulus-response model in which change in external or internal environmental conditions is detected and appropriate responses occur via negative feedback; in vertebrates, receptors and effectors are linked via a control centre …

ACSBL110 | Content Descriptions | Unit 4 | Biology | Science | Senior secondary curriculum

ACSPH026

The nuclear model of the atom describes the atom as consisting of an extremely small nucleus, which contains most of the atom’s mass and is made up of positively charged protons and uncharged neutrons surrounded by negatively charged electrons

ACSPH026 | Content Descriptions | Unit 1 | Physics | Science | Senior secondary curriculum

ACSPH141

The Standard Model is based on the premise that all matter in the universe is made up from elementary matter particles called quarks and leptons; quarks experience the strong force, leptons do not

ACSPH141 | Content Descriptions | Unit 4 | Physics | Science | Senior secondary curriculum