Anno’s Mysterious Multiplying Jar

Masaichiro and Mitsumasa Anno

Australian Curriculum:  Description

Select and apply efficient mental and written strategies and appropriate digital technologies to solve problems involving all four operations with whole numbers (ACMNA123)

Teaching ideas
At a year 6 level, factorial numbers can be used to help students understand and be able to explain the power of the operation of multiplication in contrast with addition. Specialist Mathematics in the Senior Secondary Mathematics Curriculum (ACARA) covers the concept of factorial notation (ACMSM003).

Wild Fibonacci: Nature’s Secret Code Revealed

Joy N. Hulme

Australian Curriculum:  Description

Describe, continue, and create number patterns resulting from performing addition or subtraction (ACMNA060); 4-Find unknown quantities in number sentences involving addition and subtraction and identify equivalent number sentences involving addition and subtraction (ACMNA083)

Teaching ideas
Puzzle collaboration to create some summary notes for the maths workbook. Like the clip titled Fibonacci Numbers: Identifying Patterns on Teaching Channel

Can you count to a googol?

Robert E. Wells

Australian Curriculum:  Description

Recognise, model, represent and order numbers to at least 10 000 (ACMNA052); Apply place value to partition, rearrange and regroup numbers to at least 10 000 to assist calculations and solve problems (ACMNA053); 4-Recognise, represent and order numbers to at least tens of thousands (ACMNA072); Apply place value to partition, rearrange and regroup numbers to at least tens of thousands to assist calculations and solve problems (ACMNA073); 7-Investigate index notation and represent whole numbers as products of powers of prime numbers (ACMNA149)

Teaching ideas

Grandfather Tang’s Story: A tale told with tangrams

Ann Tompert

Australian Curriculum:  Description

ACMMG009; ACMMG010; ACMMG022; ACMMG042; ACMMG064; ACMMG088; ACMMG089; ACMMG091; ACMMG112; ACMMG113; ACMMG141; ACMMG142; ACMMG165; ACMMG166

Teaching ideas
Constructing tangrams, barrier games, jigsaws, tangram teasers, exploring triangles, oblongs, parallelograms, trapeziums, areas, polygons, hexagons, angles

Maths Curse

Jon Scieszka

Australian Curriculum:  Description

3-Tell time to the minute and investigate the relationship between units of time (ACMMG062); 4-Investigate equivalent fractions used in contexts (ACMNA077); 5-Choose appropriate units of measurement for length, area, volume, capacity and mass; 6-Continue and create sequences involving whole numbers, fractions and decimals. Describe the rule used to create the sequence (ACMNA133)

Teaching ideas
There are lots of concepts explored in this book that could be extrapolated and explored further; (1) time, (2) timelines; (3) multistep problems; (4) conversions between units; (5) fractions; (6) cross KLA references; (7) charts, (8) binary, (9) Fibonacci; (10) money

One Thing : featuring Charlie and Lola

Lauren Child

Australian Curriculum:  Description

F.Y-Connect number names, numerals and quantities, including zero, initially up to 10 and then beyond (ACMNA002); Yr1-Represent and solve simple addition and subtraction problems using a range of strategies including counting on, partitioning and rearranging parts (ACMNA015); Yr2-Explore the connection between addition and subtraction (ACMNA029); Yr3-Recognise, model, represent and order numbers to at least 10 000 (ACMNA052); Yr3-Tell time to the minute and investigate the relationship between units of time (ACMMG062); Yr4-Recognise, represent and order numbers to at least tens of thousands (ACMNA072); Yr5-Convert between units of time (ACMMG085); Yr6-Select and apply efficient mental and written strategies and appropriate digital technologies to solve problems involving all four operations with whole numbers (ACMNA123)

Teaching ideas
Teach other vocabulary that is often used differently in everyday language such as the examples in the book; e.g. "how about no things" meaning 0 things. Explore time and how long the morning routine takes students in the class. Counting and counting on items.

Sir Cumference and the Sword in the Cone

Cindy Neuschwander

Australian Curriculum:  Description

Year 5 – Measurement and Geometry : Shape – Connect three-dimensional objects with their nets and other two-dimensional representations (ACMMG111); Year 6 – Measurement and Geometry : Shape – Construct simple prisms and pyramids (ACMMG140); Year 7 – Measurement and Geometry : Shape – Draw different views of prisms and solids formed from combinations of prisms (ACMMG161); Year 8 – Measurement and Geometry : Shape – Investigate the relationship between features of circles such as circumference, area, radius and diameter. Use formulas to solve problems involving circumference and area (ACMMG197).

Teaching ideas
* Year 5 students could use page 5 to "form the solids and find their places"; * Year 6 students could use page 5 to "form the solids and find their places"; * Year 7 students could investigate Euler's Law by folding nets to form prisms and pyramids. They =could then draw up an investigation table (page 12) and draw their own conclusions; * By year 8 the mathematical vocabulary students know should enable them to understand and apprecaite the entire book. The teacher could pose the problem from the book without reading it, and have students work in groups to solve it. Were the steps you took to solving it the same as Radius and Vertex's?

A Remainder of One

Elinor J Pinczes

Australian Curriculum:  Description

Number and Algebra : Number and Place Value – Solve problems involving division by a one digit number, including those that result in a remainder (ACMNA101); Investigate index notation and represent whole numbers as products of powers of prime numbers (ACMNA149)

Teaching ideas
* Have students mathematically represent the ideas in the book. i.e. concrete with actual bugs, representational with tally marks and abstract would be the mathematical numbers and symbols (25 ÷ 2 = 12 r1; 25 ÷ 3 = 8 r1; 25 ÷ 4 = 6 r1; 25 ÷ 5 = 5). Year 7s could use this as an introduction to prime numbers and non-prime numbers. What are the factors of 24 and 25.