In a recent Skype call on a large monitor at the front of the classroom, George Gagnon, Founder of Prairie Rainbow Company, met with students and faculty for an introductory session to clarify parameters for the project and to present the concepts the two student teams developed in a 48 hour turnaround.
The eleven students enrolled in the class were divided into two teams and tasked with creating a video game version of the Rainbow Squares table top game. Rainbow Squares is a puzzle game designed for elementary, secondary or adult learners to use as an individual or group learning tool. The game consists of six squares, each made up of three different rainbow-colored pieces. Each of these pieces can be used to form other squares using two, four, five or six pieces or can be used to learn addition and fractions.
“Rainbow Math Models are designed to engage students and let them learn through the method that is best for them,” said George. “Feelings learners get to build a physical model, image learners can create a visual model, while language learners have the chance to hear, read, or write a number model,” added George. “I think by offering Rainbow Squares as a virtual learning tool, more students will have access to the learning method that works for them.”
After students introduced themselves, a representative from each team outlined the concepts they were considering for the game design.
The Red Team started with general ideas and then branched out. They thought it was important for the video game to represent the physical game since the product has been so successful. The team’s goal is to make students want to play the game over and over. They also discussed implementing different levels for different shapes such as one level to focus on manipulating squares, another for pentagons and another for triangles. Other ideas involved creating a limited moves mode or an addition mode with each block being assigned a numerical value. The team would also like to explore a multiplayer option.
The Blue Team first wanted to know if George would prefer a more structural approach to presenting the concepts of addition and fractions or would he consider a more spatial representation of the math concepts through graphs or perhaps as weights on a scale. Would he like the final game to be more session-based play or individual play? If he would like a more structural approach to teaching the concepts, then they are thinking about a more traditional approach with something like Tetris.
“I love the creativity the teams have put into the process. I’m excited about what I’ve heard today and can’t wait to see the finished products,” said George.