In a recent edWebinar, hosted by edWeb.net, Michelle Luhtala, library department chair, and Donna Burns, technology integrator, both from New Canaan High School (NCHS) in Connecticut, showcased the transformation of the NCHS library from a collection of used reference and biography books into a living, breathing makerspace. Using mostly recyclable materials, equipment, and furniture, these educators are providing learning opportunities for students and teachers that have changed the school climate and culture. “Making learning more real for students allows them to learn better in a much more energized school,” said Luhtala.
A multi-year redesign
Through a five-year radical book-weeding process from 2011- 2016, the NCHS library had eliminated all of the library’s free-standing bookshelves. This process created both an opportunity and a challenge for Luhtala and Burns to convert this newly created space into a makerspace. With minimal funding in the early stages of the makerspace, the duo salvaged discarded lab tables and art stools and recycled material from all areas of the school.
Although this space was optimal for student making, organization and storage issues became the prime concern in the second year of the makerspace. Luhtala and Burns rescued much-needed shelving from the elementary school and clamped the refurbished shelves together to create an 80-bin storage system that provided teachers and students easy access to the makerspace materials.
The third year was the most significant when the makerspace moved into a new area in the library. Windows and doors were removed to open up the entire space, teacher offices converted into soundproof video booths/virtual reality rooms, and the lower library furnished with flexible caster seating for double classrooms.
How to transform a library into a #makerspace
Collaboration is key to a better makerspace design
However, the most significant changes happened when the school district began to allocate funding previously earmarked for library books to the NCHS makerspace. Luhtala and Burns collaborated with the NCHS CTE interior design class on a design challenge project that focused on the makerspace overall area, materials, signage, and work stations while keeping spatial planning and traffic flow in mind. The students’ simple design became the inspiration for profound changes in the makerspace including rolling carts, foldable tables, whiteboard walls, and the reorganization of materials and supplies.
During the first year, the makerspace was stocked with basic craft and recycled materials such as butcher-block paper, markers, and Legos. By the second year, when the types of makerspace materials increased to 80, Luhtala and Burns painstakingly organized, labeled, and categorized these materials into alphabetized bins. However, they began to think about not only the organizational part of these materials but how to get students to plan their projects before they come to the makerspace. By creating a worksheet template, students spend less time deciding on materials and more time on making. They also wanted to encourage students to take ownership of the space and put elements back in an organized manner. Larger labels were put on material bins, supply carts got wheels, and installed pegboards were hung with frequently used materials such as pencils, erasers, scissors, and paper. By organizing the materials by workflow, such as coding, circuitry, and electronics; needlecraft; and 2D and 3D elements, Luhtala and Burns discovered that the materials used the least amount of time were the most expensive materials.