ACMMM156
recognise the qualitative features of the graph of \(y=\log_ax\) \((a>1)\) including asymptotes, and of its translations \(y=\log_ax+b\) and \(y=\log_a{(x+c)}\)
ACMMM156 | Content Descriptions | Unit 4 | Mathematical Methods | Mathematics | Senior secondary curriculum
ACMSM042
find all solutions of \(\mathrm f\left(\mathrm a\left(\mathrm x-\mathrm b\right)\right)=\mathrm c\) where \(f\) is one of \(\sin\), \(\cos\) or \(\tan\)
ACMSM042 | Content Descriptions | Unit 2 | Specialist Mathematics | Mathematics | Senior secondary curriculum
ACMSM043
graph functions with rules of the form \(\mathrm y=\mathrm f(\mathrm a\left(\mathrm x-\mathrm b\right))\) where \(f\) is one of \(\sin\), \(\cos\) or \(\tan\)
ACMSM043 | Content Descriptions | Unit 2 | Specialist Mathematics | Mathematics | Senior secondary curriculum
ACMSM143
use \(\overline x\) and \(s\) to estimate \(\mu\) and \(\sigma\), to obtain approximate intervals covering desired proportions of values of a normal random variable and compare with an approximate confidence interval for \(\mu\)
ACMSM143 | Content Descriptions | Unit 4 | Specialist Mathematics | Mathematics | Senior secondary curriculum
ACSCH130
Data from analytical techniques, including mass spectrometry, x-ray crystallography and infrared spectroscopy, can be used to determine the structure of organic molecules, often using evidence from more than one technique
ACSCH130 | Content Descriptions | Unit 4 | Chemistry | Science | Senior secondary curriculum
ACMSM138
simulate repeated random sampling, from a variety of distributions and a range of sample sizes, to illustrate properties of the distribution of \(\overline X\;\) across samples of a fixed size \(n\), including its mean \(\mu\), its standard deviation …
ACMSM138 | Content Descriptions | Unit 4 | Specialist Mathematics | Mathematics | Senior secondary curriculum
ACMSM139
simulate repeated random sampling, from a variety of distributions and a range of sample sizes, to illustrate the approximate standard normality of \(\frac{\overline X-\mu}{s/\sqrt[{}]n}\) for large samples \(\left(n\geq30\right)\), where \(s\) is the …
ACMSM139 | Content Descriptions | Unit 4 | Specialist Mathematics | Mathematics | Senior secondary curriculum
ACMMM149
determine and use the probabilities \(\mathrm P\left(\mathrm X=\mathrm r\right)=\begin{pmatrix}\mathrm n\\\mathrm r\end{pmatrix}\mathrm p^\mathrm r{(1-\mathrm p)}^{\mathrm n-\mathrm r}\) associated with the binomial distribution with parameters \(n\) …
ACMMM149 | Content Descriptions | Unit 3 | Mathematical Methods | Mathematics | Senior secondary curriculum
Elaboration (5) ACLASFC091
introducing self and family and explaining relationships using possessive pronouns, for example: POSS1 NAME X, PRO1 12-YEARS-OLD My name is X, and I’m 12 years old. PRO3 POSS1 BROTHER He’s my brother.
Elaboration (5) | ACLASFC091 | Content Descriptions | Years 7 and 8 | Years 7–10 (Year 7 Entry) Sequence | First Language Learner Pathway | Auslan | Languages | F-10 curriculum
Worksheet: Ecosystems
Students had completed a unit on ecosystems, including conducting field work in their local heathland and completing a case study on the Biosphere 2 experiment. They had investigated how matter and energy move through an ecosystem, and the different ways …
Worksheet: Ecosystems | Samples | Curriculum connections | Resources
Elaboration (3) ACLGEU167
describing relationships between language, structure and textual purpose, for example, in a personal text using informal register, such as a thank-you email to a friend (Liebe Grüße; du; Dein(e) X)
Elaboration (3) | ACLGEU167 | Content Descriptions | Years 7 and 8 | Years F–10 Sequence | German | Languages | F-10 curriculum
Elaboration (2) ACLGEC002
accepting or declining an invitation, for example, a short message, Liebe/r X, danke für deine Einladung. Ich kann am Freitag nicht mitkommen. Ich habe Basketballtraining.
Elaboration (2) | ACLGEC002 | Content Descriptions | Years 7 and 8 | Years 7–10 (Year 7 Entry) Sequence | German | Languages | F-10 curriculum
Digital project: Bee-Bot - ABOVE
Students explored the concept of sequencing steps and decisions using Bee-Bots. They worked in groups to solve progressively more complex routes using grids on paper. Students then programmed the Bee-Bots to navigate grids created on the floor using masking …
Digital project: Bee-Bot - ABOVE | Samples | Work samples | Resources
Digital project: Bee-Bot - AT
Students explored the concept of sequencing steps and decisions using Bee-Bots. They worked in groups to solve progressively more complex routes using grids on paper. Students then programmed the Bee-Bots to navigate grids created on the floor using masking …
Digital project: Bee-Bot - AT | Samples | Work samples | Resources
Digital project: Bee-Bot - BELOW
Students explored the concept of sequencing steps and decisions using Bee-Bots. They worked in groups to solve progressively more complex routes using grids on paper. Students then programmed the Bee-Bots to navigate grids created on the floor using masking …
Digital project: Bee-Bot - BELOW | Samples | Work samples | Resources
Digital project: Python game - ABOVE
Students were provided with a game that had been developed by previous students at the school using Python. They were required to correct any errors and to modify the game by creating additional features and functionality, for example new character races, …
Digital project: Python game - ABOVE | Samples | Work samples | Resources
Τι κάνω το απόγευμα – AT
Students learnt personal and school routines for various parts of the day. In this task students wrote sentences and paragraphs in relation to the sequence of their afternoon routine, using a range of language features and functions and appropriate punctuation …
Τι κάνω το απόγευμα – AT | Samples | Work samples | Resources
Law of conservation of mass – ABOVE
Prior to the sample task, students learnt the basic concepts and history of atomic theory, the difference between elements and compounds, the law of conservation of mass, and different types of chemical reactions. In this task, students were asked to …
Law of conservation of mass – ABOVE | Samples | Work samples | Resources
Number and algebra: My thinkboard - WS2
The students were presented with a basket containing five skipping ropes. They were told that previously there was a basket full of skipping ropes and were asked to list three different solutions to how many skipping ropes had gone missing. Students gave …
Number and algebra: My thinkboard - WS2 | Samples | Mathematics proficiencies | Resources
My alien friend – AT
Students learnt about people’s characteristics – personal information, likes/dislikes, physical appearances, hobbies and interests. In this task, students were asked to imagine that they meet a friendly alien. Students were to create, introduce and describe …
My alien friend – AT | Samples | Work samples | Resources