In the Superhero Transformations project, students design their own simple superhero and distill it down to its core geometric shape. Students choose a story stem and write a short story about their superhero. Students then draw their hero’s shape into the first panel of a four-panel graph paper comic strip template, and use geometric transformations (translations, rotations and reflections) to make their character appear in the remaining three panels. Finally, students fill in the remaining visual elements needed in each panel (villains, backgrounds, props, etc). This project was adapted from a lesson by Karen Stafford.
Geometric transformations: translations, reflections and rotations
Primary CT concept: algorithmic thinking. Students have to come up with the correct sequence of transformations to properly position their superheroes within each panel. Students also leverage abstraction when they simplify the shape of their hero, and decomposition when they break their story down into a fixed number of comic panels.
Students will be able to:
Use translations, reflections and rotations to move a geometric shape around the coordinate plane
Create a visual story about a superhero of their own design
Comic template (print on 11x17" paper)
Suggested lesson breakdown:
This activity is more of a practice/synthesis tool than a teaching tool, and therefore works best towards the end of the unit. You can decide whether to keep students together when working through each step, or whether they can self-pace through the project.
10min - introduce project, go over requirements and grading rubric
5-10min - students create and draw their own superhero
5-10min - students create a simplified geometry version of their superhero
10-15min - students write a short story for their superhero using one of three story stems
10-15min - students break down their story visually into four comic panels
40-60min - students place their hero in the first panel and use geometric transformations to move him or her into each subsequent panel, recording the coordinates of each vertex within each panel
15-30min - students finalize their comic strip by adding backgrounds, characters, props, etc.