I have translated triangle(ABC) by the vector defined by (20,0) to get the image triangle(A'B'C'). I have given you two parallel lines, f and g.[br]- Reflect triangle(ABC) over line f. [br]- Now reflect the image from the previous reflection over line g. What do you notice about the orientation of the image after two reflections?[br]- Let's see if we can map the image from two reflections onto triangle(A'B'C'). Adjust the endpoints of the vector so that triangle(A'B'C') maps onto the image after two reflections.[br]- Measure the distance between lines f and g. How does that relate to the length of the vector? (use your measure tool)

In the following worksheet, I have rotated triangle(ABC) about point D counterclockwise. This time the lines of reflection were not parallel.[br]- Using your rules of rotation, what angle did I rotate triangle(ABC) to get triangle(A'B'C')? [br]- Reflect triangle(ABC) over line f. [br]- Now reflect the image from the previous reflection over line g.[br]- Rotate line g (by moving point F) so that triangle(GHI) maps back onto triangle(ABC). What is the relationship between lines f and g? [br]- Now rotate the line g so that the image after two reflections maps to triangle(A'B'C'). Find the angle between lines f and g. How does that relate to the angle of rotation from triangle(ABC) to triangle(A'B'C')? [br]- What is the relationship between the point of rotation and the intersection of lines f and g?