Structure of Essential Mathematics Essential Mathematics
Essential Mathematics has four units each of which contains a number of topics. It is intended that the topics be taught in a context relevant to students’ needs and interests. In Essential Mathematics, students use their knowledge and skills to investigate …
Structure of Essential Mathematics | Essential Mathematics | Mathematics | Senior secondary curriculum
Structure of General Mathematics General Mathematics
General Mathematics is organised into four units. The topics in each unit broaden students’ mathematical experience and provide different scenarios for incorporating mathematical arguments and problem solving. The units provide a blending of algebraic, …
Structure of General Mathematics | General Mathematics | Mathematics | Senior secondary curriculum
Structure of Mathematical Methods Mathematical Methods
Mathematical Methods is organised into four units. The topics broaden students’ mathematical experience and provide different scenarios for incorporating mathematical arguments and problem solving. The units provide a blending of algebraic and geometric …
Structure of Mathematical Methods | Mathematical Methods | Mathematics | Senior secondary curriculum
ACMSM066
prove divisibility results, such as \(3^{2n+4}-2^{2n}\) is divisible by 5 for any positive integer n.
ACMSM066 | Content Descriptions | Unit 2 | Specialist Mathematics | Mathematics | Senior secondary curriculum
Structure Digital Technologies
The Australian Curriculum: Digital Technologies (F–10) comprises two related strands: Digital Technologies knowledge and understanding – the information system components of data, and digital systems (hardware, software and networks) Digital Technologies …
Structure | Digital Technologies | Technologies | F-10 curriculum
Elaboration ACLINC022
gathering information from home, school and local environment to present to others, for example, a display or presentation on rumah saya, di sekolah kami…
Elaboration | ACLINC022 | Content Descriptions | Years 3 and 4 | Years F–10 Sequence | Indonesian | Languages | F-10 curriculum
Elaboration (1) ACLINC053
corresponding with peers, including via technology, asking and responding to questions to seek information or clarification, for example, Jam berapa mengerjakan PR?, Bagaimana rumah kamu? Suka band yang mana?
Elaboration (1) | ACLINC053 | Content Descriptions | Years 7 and 8 | Years F–10 Sequence | Indonesian | Languages | F-10 curriculum
Example of knowledge and skills Music
In this band students are introduced to the ways that ideas and intentions are communicated in and through Music. They develop knowledge, understanding and skills through music practices focusing on: Elements of music Rhythm sound/silence, long/short, …
Example of knowledge and skills | Music | The Arts | F-10 curriculum
Texts Essential English
Teachers will use an array of material in class. Texts include literary texts, fiction and non-fiction, media texts, everyday texts, and workplace texts, from increasingly complex and unfamiliar settings, ranging from the everyday language of personal …
Texts | Essential English | English | Senior secondary curriculum
Example of knowledge and skills Drama
In this band students are introduced to the ways that ideas and intentions are communicated in and through drama. They develop knowledge, understanding and skills through drama practices focusing on: Elements of drama Role, character and relationships Role …
Example of knowledge and skills | Drama | The Arts | F-10 curriculum
Structure of English as an Additional Language or Dialect English as an Additional Language or Dialect
Units 1–4 Unit 1 focuses on investigating how language and culture are interrelated and expressed in a range of contexts. A variety of oral, written and multimodal texts are used to develop understanding of text structures and language features. The relationship …
Structure of English as an Additional Language or Dialect | English as an Additional Language or Dialect | English | Senior secondary curriculum
UuM4
Using equal units for indirect comparison describes the qualitative relationship between the size and number of units (with bigger units you need fewer of them) chooses and uses a selection of the same size and type of units to make indirect comparisons …
UuM4 | Understanding units of measurement | Measurement and geometry | National Numeracy Learning Progression | National Literacy and Numeracy Learning Progressions | Resources
NPA4
Continuing number patterns continues patterns where the difference between each term is the same number (2, 4, 6, 8, 10 …) describes rules for continuing patterns where the difference between each term is the same number (to find the next number …
NPA4 | Number patterns and algebraic thinking | Number sense and algebra | National Numeracy Learning Progression | National Literacy and Numeracy Learning Progressions | Resources
InF6
Fractions as numbers connects the concepts of fractions and division: a fraction is a quotient, or a division statement (two-sixths is the same as 2 ÷ 6 or 2 partitioned into 6 equal parts) justifies where to place fractions on a number line (to place …
InF6 | Interpreting fractions | Number sense and algebra | National Numeracy Learning Progression | National Literacy and Numeracy Learning Progressions | Resources
OwP5
Adding a percentage as multiplying increases and decreases quantities by a percentage (to determine discounts and mark-ups) uses percentages to calculate simple interest on loans and investments recognises that adding a percentage is equivalent …
OwP5 | Operating with percentages | Number sense and algebra | National Numeracy Learning Progression | National Literacy and Numeracy Learning Progressions | Resources
Elaboration (2) ACLJAU156
knowing that the hiragana spelling of a particular particle does not match its pronunciation, for example, ‘wa’ for は , ‘e’ for へ, ‘o/wo’ for を
Elaboration (2) | ACLJAU156 | Content Descriptions | Years 5 and 6 | Years F–10 Sequence | Japanese | Languages | F-10 curriculum
AdS4
Counting on (by ones) treats a number word as a completed count when solving problems (‘I have 7 apples. I want 10. How many more do I need?’ Treats the 7 as a completed count) uses a strategy of count-up-from to calculate addition (to find 6 + 3, …
AdS4 | Additive strategies | Number sense and algebra | National Numeracy Learning Progression | National Literacy and Numeracy Learning Progressions | Resources
AdS5
Counting back (by ones) uses count-down-from for subtraction tasks (9 – 3 = ?, 9 ... 8, 7, 6. It equals 6) uses count-down-to to calculate (9 take away something equals 6, responds 9 ... 8, 7, 6 ... It's 3) finds the difference between two numbers …
AdS5 | Additive strategies | Number sense and algebra | National Numeracy Learning Progression | National Literacy and Numeracy Learning Progressions | Resources
NPA5
Generalising patterns identifies elements, including missing elements, in a one-operation number pattern Number sentences uses equivalent number sentences involving addition or subtraction to find an unknown (527 + 96 = ? is the same as 527 …
NPA5 | Number patterns and algebraic thinking | Number sense and algebra | National Numeracy Learning Progression | National Literacy and Numeracy Learning Progressions | Resources
QuN5
Producing number names counts to at least 20 continues a count from a number other than 1 counts forwards by tens to 100 Counting items counts groups of up to 20 items Numeral recognition and identification points to the correct …
QuN5 | Quantifying numbers | Number sense and algebra | National Numeracy Learning Progression | National Literacy and Numeracy Learning Progressions | Resources