2.- Move point B with the mouse until it is lined up exactly with points A and C. Look at how the symmetry changes the order of the points.

3.- Move points A, B and C so that the triangle symmetrical to it fits over the original one exactly. For example, place C on the line of symmetry and points A and B on B' and A' respectively. Note that triangle ABC is an isosceles triangle and that it fits exactly over its reflection A´B´C´. In this case we can say that triangle ABC has one line of symmetry. How many lines of symmetry does an equilateral triangle have?

5.-Click on the Init button and construct an isosceles triangle whose base is 4 by joining together points A and B of the rectangle. Use the method explained above to find its line of symmetry, if it has one, and which points this line passes through. Does it have another line of symmetry? What about if it were an equilateral triangle?

6.- Find the reflection of the following points about lines r and s: A(1,1), B(-2,3), C(2,-1), D(-2,-3).

7.- Given any point with coordinates (x,y), work out its new coordinates after a reflection about each axis.

8.- Work out the coordinates of the squares symmetrical to the square A(1,1), B(1,4), C(4,4) and D(4,1) about lines r and s and draw the reflections in your exercise book.

• The same transformation involving symmetry is applied twice, which is the same as an identity.
• If two transformations involving symmetry occur and the lines are parallel, when they are combined the result is a translation where the shape moves double the distance between the two lines.
• When the lines intersect the result is a rotation about the point where the lines intersect through an angle which is double the angle formed by the axes.

8.-Move the vertices of the yellow triangle and watch how the shape and size of the corresponding symmetrical triangles changes too.

9.- Drag the lines in both directions to show that the relation between the distance of the movement and the distance between the lines is satisfied.

10.- Drag line s and place it on top of line r. Look at how triangle ABC fits exactly over A´´B´´C´´.

11.-Click on the Init button and draw a similar example to the one given in the window in your exercise book. Check that the total translation is equal to double the distance between the two lines.

12.- Find out what would happen if s was the first line of symmetry and then r. Would you get the same end result?

13.- Move point r and s in the Descartes window to create different transformations of symmetry and look carefully at the size of the angle of rotation which is produced.