Digit detail

These are level 3 number and geometry problems from the Figure It Out series. It is focused on using addition and a systematic approach to solve problems, along with exploring features of two dimensional shapes and symmetry. A PDF of the student activity is included.

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About this resource

Figure It Out is a series of 80 books published between 1999 and 2009 to support teaching and learning in New Zealand classrooms.

This resource provides the teachers' notes and answers for one activity from the Figure It Out series. A printable PDF of the student activity can be downloaded from the materials that come with this resource.

Specific learning outcomes:

Use addition and a systematic approach to solve problems (Problems 1 and 2).
Explore features of two dimensional shapes (Problem 3).
Explore symmetry (Problem 4).

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Digit detail

Achievement objectives

GM3-3: Classify plane shapes and prisms by their spatial features.

GM3-6: Describe the transformations (reflection, rotation, translation, or enlargement) that have mapped one object onto another.

NA3-1: Use a range of additive and simple multiplicative strategies with whole numbers, fractions, decimals, and percentages.

Required materials

Figure It Out, Level 3, Problem Solving, "Digit detail", page 7

See Materials that come with this resource to download:

Digit detail activity (.pdf)

Activity

Problem 1

Encourage students to look for a systematic strategy to find all the possible solutions. They could use an organised list, a tree diagram, or a table. Here is how a table might be used to find all the possible solutions.

Hundreds digit

Tens digit

Ones digit

Number

169

178

187

196

259

268

277

286

295

349

358

367

376

385

394

439

448

If students find this problem difficult, start with a digit problem that has fewer solutions, such as:

The digits of 57 add to 12. What other two-digit numbers have a digit sum of 12?
What three-digit house numbers have a digit sum of 21?

Using digit cards may be helpful for some students as they try various possibilities.

Problem 2

Students might use a strategy of trying all the denominations of coins available and eliminating those that don’t work.

Coin	Four coins with the same total?
5c	Smallest coin, therefore impossible
10c	Two 5c coins is the only exchange possible
20c	5c + 5c + 5c + 5c
50c	20c + 20c +5c + 5c 20c + 10c + 10c + 10c
$1	50c + 20c + 20c + 10c
$2	50c + 50c + 50c + 50c

Only 20 cents and $2 can be made with four identical coins. However, 50 cents can be made with four coins in two ways and $1 can be made in one way.

Problem 3

Students will need to understand that a diagonal connects a corner (vertex) of a polygon with any corner that is not adjacent to it. For example, these are diagonals:

Students need to approach the problem systematically and organise the results in a table or list. This will help them to identify patterns.

Table listing shapes, the number sides and diagonals of each. Triangle (3, 0), trapezoid (4, 2), pentagon (5, 5), hexagon (6, 9).

The table will show that the number of diagonals increases markedly with each side added, so the sides/corners and diagonals will not be equal for any other polygon.

Students may be interested in looking at ways to work out the number of diagonals for a given polygon. Consider a hexagon:

Four hexagons with each vertex highlighted.

So a hexagon has 3 + 3 + 2 + 1 = 9 diagonals.

This thinking can be used to show that a heptagon (seven-sided polygon) has 4 + 4 + 3 + 2 + 1 = 14 diagonals.

Problem 4

The digits shown in this problem are slightly different from those shown on some calculators. Some displays show the figures on a slight slant.

Some students may need a mirror to find the lines of symmetry by looking for mirror positions where part of the digit is masked yet the digit appears whole, as in the diagram below.

Vertical and horizontal lines are the easiest to find.

Digits zero to nine, digits 0, 1, 3, and 8 highlight lines of symmetry.

Some students may be confused by diagonal lines of symmetry. For example:

Digits 8 and 0, diagonal lines highlighted across each.

and are not lines of symmetry because when viewed in a mirror (depending on which way the mirror faces), the digits appear as:

4 kite shapes with diagonal lines highlighted.

When students put the mirror beside the digits, they will see that some digits are mirror images of other digits while others are their own image.

Rotational symmetry (turn symmetry) of digits 5 and 2, 8 and 8, 6 and 9. Caption says 'The digits 6 and 9 are not quite mirror images of each other.'

A similar analysis can be made of the rotational symmetry (turn symmetry) of each digit.

Digits 0, 2, 5 and 8 with half turn symmetry.

Each of the digits 0, 2, 5, and 8 has half-turn symmetry.

Problem 5

Diagonal squares are often overlooked by students. With a 3 x 3 geoboard, the possible squares are:

Three examples of shapes made with a 3 x 3 geoboad. A 2 x 2 square, a 3 x 3 square, and a 1 x 3 diamond.

Moving to a 4 x 4 geoboard increases the number of possible squares. Students will need to adopt a systematic strategy, such as finding all the squares involving a corner pin and then finding all the squares involving a centre-side pin.

A 4 x 4 geoboard with the following shapes. A 2 x 2 square, 3 x 3 square, 4 x 4 square, 1 x 3 diamond, and another larger diamond.

Answers

79	169	259	349	439	529	619	709	808	907
88	178	268	358	448	538	628	718	817	916
97	187	277	367	457	547	637	727	826	925
	196	286	376	466	556	646	736	835	934
		295	385	475	565	655	745	844	943
			394	484	574	664	754	853	952
				493	583	673	763	862	961
					592	682	772	871	970
						691	781	880
							790

$2 (4 x 50c) or 20c (4 x 5c) if the coins are identical; 50c (20c + 20c + 5c + 5c or 20c + 10c + 10c + 10c) or $1 (50c + 20c + 20c + 10c) if the coins are not identical

No. A triangle has no diagonals and a square has only 2 diagonals. Any polygon with more than 5 sides has many more diagonals than sides or vertices (corners). For example:

Table listing each digit and the lines of symmetry each digit has. 0 (2), 1 (1), 2 (0), 3 (1), 4 (0), 5 (0), 6 (0), 7 (0), 8 (2), 9 (0).

a. 3

3 x 3 geo board with presenting 3 shapes. A 2 x 2 square, a 3 x 3 square and a 1 x 3 diamond.

b. 5

4 x 4 geoboard presenting 5 square shapes. A 2 x 2 square, a 3 x 3 square, a 4 x 4 square, a 1 x 3 diamond, and a larger diamond.

The quality of the images on this page may vary depending on the device you are using.

79	169	259	349	439	529	619	709	808	907
88	178	268	358	448	538	628	718	817	916
97	187	277	367	457	547	637	727	826	925
	196	286	376	466	556	646	736	835	934
		295	385	475	565	655	745	844	943
			394	484	574	664	754	853	952
				493	583	673	763	862	961
					592	682	772	871	970
						691	781	880
							790

79	169	259	349	439	529	619	709	808	907
88	178	268	358	448	538	628	718	817	916
97	187	277	367	457	547	637	727	826	925
	196	286	376	466	556	646	736	835	934
		295	385	475	565	655	745	844	943
			394	484	574	664	754	853	952
				493	583	673	763	862	961
					592	682	772	871	970
						691	781	880
							790

Digit detail

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About this resource

Digit detail

Achievement objectives

Required materials

Activity

79	169	259	349	439	529	619	709	808	907
88	178	268	358	448	538	628	718	817	916
97	187	277	367	457	547	637	727	826	925
	196	286	376	466	556	646	736	835	934
		295	385	475	565	655	745	844	943
			394	484	574	664	754	853	952
				493	583	673	763	862	961
					592	682	772	871	970
						691	781	880
							790