Tag Archives: LEGO Serious Play

LEGO serious play and Arizona State University’s nanotechnology* ethics and society project*

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Arizona State University (ASU) is receiving a $200,000 grant for undergraduates to ‘play seriously’ according to an April 10, 2014 news item on Azonano,

ASU undergraduates have the opportunity to enroll in a challenging course this fall, designed to re-introduce the act of play as a problem-solving technique. The course is offered as part of the larger project, Cross-disciplinary Education in Social and Ethical Aspects of Nanotechnology, which received nearly $200,000 from the National Science Foundation’s Nano Undergraduate Education program.

An April 6, 2014 ASU news release, which originated the news item, provides more details (Note: Links have been removed),

The project is the brainchild of Camilla Nørgaard Jensen, a doctoral scholar in the ASU Herberger Institute’s design, environment and the arts doctoral program. Participants will use an approach called LEGO Serious Play to solve what Jensen calls “nano-conundrums” – ethical dilemmas arising in the field of nanotechnology.

“LEGO Serious Play is an engaging vehicle that helps to create a level playing field, fostering shared conversation and exchange of multiple perspectives,” said Jensen, a trained LEGO Serious Play facilitator. “This creates an environment for reflection and critical deliberation of complex decisions and their future impacts.”

LEGO Serious Play methods are often used by businesses to strategize and encourage creative thinking. In ASU’s project, students will use LEGO bricks to build metaphorical models, share and discuss their creations, and then adapt and respond to feedback received by other students. The expectation is that this activity will help students learn to think and communicate “outside the box” – literally and figuratively – about their work and its long-term societal effects.

This project was piloted, from the news release (Note: A link has been removed),

Fifteen engineering students enrolled in the Grand Challenge Scholar Program participated in a Feb. 24 [20??] pilot workshop to test project strategies. Comments from students included, “I experienced my ideas coming to life as I built the model,” and “I gained a perspective as to how ideas cannot take place entirely in the head.” These anecdotal outcomes confirmed the team’s assumptions that play and physical activity can enhance the formation and communication of ideas.

This is a cross-disciplinary effort (from the news release),

“Technology is a creative and collaborative process,” said Seager [Thomas Seager, an associate professor and Lincoln Fellow of Ethics and Sustainability in the School of Sustainable Engineering and the Built Environment], who is principal investigator for the grant. “I want a classroom that will unlock technology creativity, in which students from every discipline can be creative. For me, overcoming obstacles to communication is just the first step.”

Seager’s work teaching ethical reasoning skills to science and engineering graduate students will help inform the project. Selin’s [Cynthia Selin, an assistant professor in the School of Sustainability and the Center for Nanotechnology in Society] research on the social implications of new technologies, and Hannah’s [Mark Hannah, an assistant professor in the rhetoric and composition program in the ASU Department of English] expertise in professional and technical communication will facilitate the dialogue-based approach to understanding the communication responsibilities of transdisciplinary teams working in nanotechnology. A steering committee of 12 senior advisers is helping to guide the project’s progress.

“Being a new scientific field that involves very complex trade-offs and risk when it comes to implementation, the subject of ethics in nanoscience is best addressed in a transdisciplinary setting. When problems are too complex to be solved by one discipline alone, the approach needs to go beyond the disciplinary silos,” said Jensen.

“As we train the next generation of students to understand the opportunities and responsibilities involved in creating and using emerging technologies that have the potential to benefit society, we need to advance our capacity to teach diverse stakeholders how to communicate effectively,” said Jensen.

I last wrote about play and nanotechnology in an Aug. 2, 2013 posting about training teachers how to introduce nanotechnology to middle schoolers. As for ASU, they’ve had a rich week with regard to funding, in an April 8, 2014 posting, i described a $5M grant for a multi-university project, the Life Cycle of Nanomaterials Network headquartered at ASU.

* Added ‘o’ to the nantechnology so it now reads correctly as nanotechnology and added a space between the words ‘society’ and ‘project’ in the head for this post.