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1. Engaging K-12 Students with Flow-Based Music Programming: An Experience Report on Its Impact on Teaching and Learning

   https://doi.org/10.1145/3641554.3701902  

   Liu, Zifeng; Zhang, Shan; Israel, Maya; Smith, Robert; Xing, Wanli; Minces, Victor (February 2025, ACM)

   NA (Ed.)

   Abstract Music and computer science (CS) have profound historical and structural connections, with programming music offering a promising avenue for engaging children in CS through creative expression. To foster this engagement, our team developed M-Flow, a flow-based music programming platform designed to introduce students to CS via music. Despite extensive existing research in music and CS education, experience reports and empirical studies on K-12 teachers' implementation and its impact on young kids' learning are limited. Therefore, we recruit elementary school teachers and students with no or limited prior programming experience, introducing them to M-Flow and its curriculum through a professional development workshop, a semester's job embedded support, and classroom implementation. We describe the experiences of teachers as they attempt to integrate music and CS, the challenges they face, and the influence on students' attitudes toward learning computing concepts. Specifically, we reflect on our intervention by conducting a sequential mixed-method evaluation. During the qualitative phase, we collected multiple sources of data from three teachers through focus groups and debriefings after a semester of classroom implementation. Thematic analysis of workshop activities, interviews, and debrief videos revealed three themes with seven sub-themes on teachers' integration of flow-based music programming and two themes with five sub-themes on challenges faced by the teachers. In the quantitative phase, we gathered data on attitudes and self-efficacy from 75 students taught by these teachers. Results indicate that the flow-based music programming environment provided an engaging programming experience for students and significantly increased their self-efficacy towards learning programming. 

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2. Work in Progress: Mflow, a Flow-based Music Programming Platform for Young Children

   https://doi.org/10.1109/EDUNINE57531.2023.10102852  

   Minces, Victor Hugo; Xing, Wanli; Li, Chenglu (January 2023, 2023 IEEE World Engineering Education Conference (EDUNINE))

   Students of all socioeconomic backgrounds love music and express their identity through music. There are strong historical connections between music and computing, and computer-based music has a heavy presence in contemporary popular culture. Thus, programming electronic music can provide the type of authentic learning experience that fosters participation in computer science (CS) by minoritized students. Although important efforts have been made in that direction, they have not reached young children in mainstream public classrooms, particularly in schools serving children from low-income and marginalized backgrounds. Developing a computational tool and educational program that reaches this key demographic holds the potential to greatly increase CS knowledge and participation in the future workforce. For this, our team has created M-flow, a flow-based music programming platform that seeks to be engaging for children from the outset, and that makes it extremely easy for non-specialized teachers to learn and implement CS activities in the classroom. 

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3. STEM Moments in the Family Context throughout Engineering Design Challenge Activities

   Kim, Jungsun; Simpson, Amber (January 2021, American Society for Engineering Education)

   null (Ed.)

   Research on interactions between caregivers and children have long been reported in science museum experiences. However, the interactions between caregivers and children in home environments are rarely investigated. By comparison, research on the experience of the engineering design challenge activities in a family context is even less. This case study aimed to examine interactions of two families in their home as they engaged with engineering design challenge kits that have the potential to support children’s foundational understanding of STEM concepts. Using social-cultural constructivism as a lens, about 370 minutes of video data was analyzed. Data coding revealed three types of interactions that facilitated children’s understanding of STEM concepts: teaching, build up, and synthesized moments. These three moments were interdependent but included different emphasis of caregivers’ and children’s engagement. Although there is a limitation of this study to generalize the findings, our results contribute to understand how caregivers and children play with the materials, tools, and their ideas in their home environments and how caregivers used different facilitation approaches without any training prior to engaging with the engineering kits. 

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4. STEM Moments in the Family Context throughout Engineering Design Challenge Activities (Fundamental)

   Kim, J.; Simpson, A. (July 2021, Zone 1 Conference of the American Society for Engineering Education)

   Research on interactions between caregivers and children have long been reported in science museum experiences. However, the interactions between caregivers and children in home environments are rarely investigated. By comparison, research on the experience of the engineering design challenge activities in a family context is even less. This case study aimed to examine interactions of two families in their home as they engaged with engineering design challenge kits that have the potential to support children’s foundational understanding of STEM concepts. Using social-cultural constructivism as a lens, about 370 minutes of video data was analyzed. Data coding revealed three types of interactions that facilitated children’s understanding of STEM concepts: teaching, build up, and synthesized moments. These three moments were interdependent but included different emphasis of caregivers’ and children’s engagement. Although there is a limitation of this study to generalize the findings, our results contribute to understand how caregivers and children play with the materials, tools, and their ideas in their home environments and how caregivers used different facilitation approaches without any training prior to engaging with the engineering kits. 

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5. Student Interest in STEM Careers: An NSF ITEST Project for High Schoolers’ Renewable Energy Technology Engagement

   Antink-Meyer, A; Aldeman, M; Williams, J; Jo, JH (June 2025, American Society for Engineering Education (ASEE))

   This NSF ITEST project (Award # 2148429) at Illinois State University focuses on engaging students in four Chicago Public High Schools in an afterschool STEM program, SUPERCHARGE, where they experience hands on activities with renewable energy technologies and related sustainability-tied experiences. Between 10 and 20 students met weekly afterschool during the first year of implementation which was preceded by a planning year in which teachers provided feedback on activities and connections to the communities of the schools were developed. Four faculty were involved in the design of the project and activities and an additional group of undergraduate STEM majors were also involved in the design and pilot of all activities. Four goals frame this project and research. These are to learn how (1) high school students’ knowledge of STEM careers and STEM domains change across their participation; (2) the high school students improve their interest in STEM career attainment and their self-efficacy for career relevant skills; (3) the undergraduate STEM majors’ views about Communities of Learners of Underrepresented Discoverers develop across their participation; and (4) teachers’ knowledge of current STEM domains, skills, and careers change. To examine the impact of the programming on each stakeholder group, PEAR’s CIS-S and CIS-E surveys, interviews, activity surveys, and workshop surveys were used. Currently, the data from the first year of programming includes 21 pre-post student surveys and 10 surveys from the undergraduate designers and 9 surveys from the teachers in the program. At this time, statistical tests were not appropriate due to these small numbers, but future years will bolster these numbers, and we anticipate the ability to perform statistical tests as the data set grows. Therefore, we focus on a qualitative analysis of the surveys and interviews at this stage. 

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