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

The King’s Chessboard

David Birch

Australian Curriculum:  Description

Introduce the concept of variables as a way of representing numbers using letters (ACMNA175)

Teaching ideas
Explore the concept if the wise man had asked for one gain on the first day, three on the second day, nine on the third day etc (x^3). How quickly would she have reached 1 billion grains?

The Boy who Loved Math

Deborah Heiligman

Australian Curriculum:  Description

Investigate index notation and represent whole numbers as products of powers of prime numbers (ACMNA149)

Teaching ideas
Used as an introductory tool for prime numbers and also collaborative work.

One Grain of Rice

Demi

Australian Curriculum:  Description

Introduce the concept of variables as a way of representing numbers using letters (ACMNA175)

Teaching ideas
Explore the concept if Rani had asked for one gain on the first day, three on the second day, nine on the third day etc (x^3). How quickly would she have reached 1 billion grains?

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.