A pattern is symmetrical if the coloured squares match up exactly as mirror images across the line of symmetry.

Example answers (many possible):

Pattern $1$ (vertical symmetry): Colour squares so that for every coloured square on the left of the vertical line, the matching square the same distance on the right is also coloured.

Pattern $2$ (horizontal symmetry): Colour squares so that for every coloured square above the horizontal line, the matching square the same distance below is also coloured.

Any two different patterns are correct as long as they are mirror images across the chosen symmetry line.

For each part, draw the mirror image of the shape on the other side of the dotted line:

a. Reflect the stepped green line across the horizontal dotted line: every corner and endpoint should be the same perpendicular distance on the opposite side.

b. Reflect the orange curved shape across the vertical dotted line: the curve and the straight edges swap sides at the same distances.

c. Reflect the pink parallelogram across the horizontal dotted line: the whole shape appears below the line with matching distances.

d. Reflect the blue curved-and-straight shape across the vertical dotted line: copy the curve and the straight segment to the left with equal distances from the mirror line.

a. Reflect the red zig-zag shape across the horizontal dotted line: each vertex is copied to the other side at the same perpendicular distance.

b. Reflect the orange zig-zag shape across the vertical dotted line: each corner is copied to the other side at the same perpendicular distance.

c. Answers will vary. Any two shapes are correct if you draw a mirror line and then draw their reflections so that corresponding points are equal distances from the mirror line.

a. Does not show symmetry (the coloured squares do not match as mirror images across the dotted line).

b. Does not show symmetry (the middle coloured squares do not mirror correctly across the dotted line).

c. Shows symmetry (the pattern matches as mirror images across the dotted horizontal line).

d. Symmetry means a shape or pattern can be split along a line so that both halves are identical mirror images; points on one side have matching points the same distance from the line on the other side.

Answers will vary. Each grid must have exactly $7$ coloured squares and the pattern must be symmetrical about the dotted line.

a. Use horizontal symmetry: choose $3$ squares above the line and colour their mirror squares below, then colour $1$ square that lies on the symmetry line (so the total is $7$).

b. Use vertical symmetry: choose $3$ squares on the left and colour their mirror squares on the right, then colour $1$ square that lies on the symmetry line.

c. Use diagonal symmetry: choose $3$ squares on one side of the diagonal and colour their mirror squares across the diagonal, then colour $1$ square that lies on the diagonal.

Answers will vary. You must draw $3$ different patterns made from connected squares, and each pattern must have a clear line of symmetry.

One possible set of patterns:

• Pattern $1$: $1$ square (uses $4$ straws) with a vertical symmetry line through the middle.

• Pattern $2$: $3$ squares in a straight row (uses $10$ straws) with a vertical symmetry line through the centre square.

• Pattern $3$: a “T” shape made from $5$ squares (uses $16$ straws) with a vertical symmetry line through the stem of the T.

Any $3$ different designs are correct as long as they are symmetrical and you draw the line of symmetry on each.