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1. Exploring the Development of Engineering Design Creativity and the Role of Spatial Skills in this Process

   Reid, Clodagh; Sorby, Sheryl (September 2023, SEFI Conference Proceedings)

   This study aims to investigate the development of creativity in engineering education and how spatial skills relate to creativity of design solutions. Undergraduate students in the first (n=86) and fourth/fifth year (n=48) of their engineering programme were invited to participate. Students completed four spatial tests to precisely measure visualisation skills. In a separate session, students were invited back to solve two engineering design tasks: a ping pong problem where they designed a ping pong ball launcher game to meet specified criteria and a rain catcher problem where they were tasked with developing as many ideas for capturing rainwater as a water source for a remote location as they could. Students were asked not to consider feasibility, cost, etc. and to come up multiple radical solutions to the rainwater capture problem. The creativity of design solutions was assessed using Adaptive Comparative Judgement. Statistical analysis indicated significant relationships between spatial skills, students’ year of study and gender. A statistically significant relationship was also found between students’ creativity scores on both design challenges. No statistical differences were determined in the creativity of first and fourth/fifth year students’ solutions. These findings will be discussed relative to existing research, future work, and potential implications for education practice. 

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2. Integrating Math and Science Through Engineering: Illustrative Examples From Curricula Implementation in Middle School Engineering Classrooms

   https://doi.org/10.1111/ssm.18370  

   Gale, Jessica; Baptiste_Porter, Dyanne; Alemdar, Meltem; Newton, Sunni; Choi, Jasmine; Rehmat, Abeera; Moore, Roxanne (June 2025, School Science and Mathematics)

   ABSTRACT Engineering has emerged as a promising context for STEM integration in K‐12 schools. In the previous decade, the field has seen an increase in curricular resources and pedagogical approaches that invite students to utilize mathematics and science as they engage in engineering practices. This Innovation to Practice paper highlights one effort to meaningfully integrate mathematics and science through engineering in middle school classrooms. The STEM‐ID engineering course sequence consists of three 18‐week middle school engineering courses. Each of the 6th, 7th, and 8th grade courses integrate science and math with engineering design, enabling students to explore and practice foundational math and science skills in a low‐risk, non‐high‐stakes‐tested environment. This Innovation to Practice paper provides illustrative examples of STEM‐integration through the STEM‐ID curricula, focusing on four key areas: data analysis, measurement, experimental design, and force and motion concepts. Drawing on our project's implementation data, we highlight illustrative examples of STEM integration, in practice, and lessons learned by educators and researchers involved in the project. 

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3. An Inquiry Approach to Teaching Sustainable Software Development with Collaborative Version Control

   https://doi.org/10.58021/S5WC72  

   Frisbie, Rachel L.; Grete, Phillip; Gline, Forrest (January 2022, Institute for Scientist and Engineer Educators (ISEE))

   Seagroves, Scott; Barnes, Austin; Metevier, Anne; Porter, Jason; Hunter, Lisa (Ed.)

   Software development is becoming increasingly ubiquitous in STEM disciplines resulting in the need for education in associated computational skills. To address this need, we designed a "Sustainable Software Development with Collaborative Version Control" workshop in the 2019 Institute for Scientist & Engineer Educators (ISEE) Professional Development Program (PDP). We describe here the development process and following delivery of the workshop. In particular, we explored how to apply an inquiry approach to learning computational skills. By design, PDP activities intertwine content and “cognitive STEM practices,” and teasing apart content and practice is important for STEM education. We encountered challenges with this task because our content — exploring software sustainability with collaborative version control — is much like a practice in itself. We designed our workshop to introduce the critical skill of sustainable software development using collaborative version control systems with an inquiry approach rather than the more typically used, strictly technical approach. We emphasize the authentic, broadly applicable nature of the workshop in which learners jointly design, test, and discuss their own increasingly complex development workflows. The development process for our workshop may be useful for educators who want to introduce software practices to learners from many disparate STEM disciplines that leverage computational methods and require software development to approach research questions. 

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4. When is an Owl More than an Owl? An Interaction Analysis of a Computer Science Co-Design Conversation on Cultural Relevance

   https://doi.org/10.22318/icls2023.632684  

   Robillard, Stephanie M; Lee, Victor R; Clarke-Midura, Jody; Shumway, Jessica (October 2023, International Society of the Learning Sciences)

   The learning sciences community is currently exploring new ways to enact productive and equitable co-design research-practice partnerships that are sensitive to all the concerns and needs of stakeholders. The paper contributes to that still-growing literature through an interaction analysis of a co-design discussion involving school district partners that unfolded about cultural relevance and sensitivity in relation to the use of a specific image in an elementary school coding lesson. The episode involved looking moment-by-moment at how district educators recognized and acknowledged that a specific design decision could be harmful for a minoritized population of students enrolled in the district. However, once a key change was made to be more culturally responsive and considerate, new and unexpected pedagogical challenges appeared. This case serves to illustrate some of the unexpected tensions that can appear in real-time when unanticipated questions about cultural relevance are foregrounded during lesson and materials co-design. 

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5. When is an Owl More than an Owl? An Interaction Analysis of a Computer Science Co-design Conversation on Cultural Relevance

   Robillard, S. M.; Lee, V. R.; Clarke-Midura, J.; & Shumway, J. (June 2023, The International Conference of the Learning Sciences (ICLS),)

   The learning sciences community is currently exploring new ways to enact productive and equitable co-design research-practice partnerships that are sensitive to all the concerns and needs of stakeholders. The paper contributes to that still-growing literature through an interaction analysis of a co-design discussion involving school district partners that unfolded about cultural relevance and sensitivity in relation to the use of a specific image in an elementary school coding lesson. The episode involved looking moment-by-moment at how district educators recognized and acknowledged that a specific design decision could be harmful for a minoritized population of students enrolled in the district. However, once a key change was made to be more culturally responsive and considerate, new and unexpected pedagogical challenges appeared. This case serves to illustrate some of the unexpected tensions that can appear in real-time when unanticipated questions about cultural relevance are foregrounded during lesson and materials co-design. 

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