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1. The Facilitator Model: Investigating a Novel Dual Credit Experience for Open-Ended Design Coursework

   https://doi.org/10.1007/s41979-022-00075-5  

   Thorne, Scott; Strimel, Greg J.; Mentzer, Nathan; Sears, David (September 2022, Journal for STEM Education Research)

   This study explored the implementation of a novel approach to dual credit referred to as the facilitator model that can be suited for STEM-focused coursework such as courses focused on engineering, design, technology, and innovation. Unlike other models, high school teachers facilitate the implementation of a college course for both high school and college credit in collaboration with a university instructor who evaluates student learning. This novel approach was specifically implemented for an open-ended undergraduate design course within an engineering technology college, similar to many first-year engineering course experiences that emphasize project based learning, from a large research-intensive public university. For this study, the facilitator model was piloted with five high school teachers as facilitators of an undergraduate design course for dual credit at two innovative, STEM-focused public charter schools. The qualitative research design focused on examining (1) teacher needs while implementing, and perceptions of, the dual credit facilitator model for an undergraduate design course in urban public charter schools and (2) the impact of this model on student learning. This study included the collection and analysis of over 90 h of interviews, focus groups, surveys, and observations. Results provide a promising outlook for the use of the facilitator model when delivering dual credit content that is open ended and within the context of design, technology, and engineering by (1) navigating multiple institutional policies and processes related to dual-credit implementation, (2) providing ongoing support and fostering collaboration between high schools and university, (3) enabling students to earn directly transcripted college credits that count as a required course toward degree completion, and (4) increasing affordability and access to dual credit coursework. These potential advantages over other dual credit models can help address barriers that may limit access to dual credit coursework, specifically for underserved high schools. 

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2. Learning Map Framework to Align Instruction and Improve Student Learning in a Physics-Engineering Mechanics Course Sequence

   Giles, Courtney D; Medsker, L R; Seneviratne, V A; Wijesinghe, P (August 2024, ASEE Peer)

   This project supports the success of undergraduate engineering students through coordinated design of curricula across STEM course sequences. The Analysis, Design, Development, Implementation, Evaluation (ADDIE) framework and backward design are being used to develop guides for instructors to align learning outcomes, assessments, and instructional materials in a physics – engineering mechanics course sequence. The approach relies on the analysis of student learning outcomes in each course, identification of interdependent learning outcomes, and development of skills hierarchies in the form of visual learning maps. The learning maps are used to illustrate the knowledge required and built upon throughout the course sequence. This study will assess the effectiveness of a course redesign intervention, which uses visual learning maps and backward design concepts, to guide instructors within a common course sequence to align learning outcomes and assessments. If successful, the intervention is expected to improve students’ primary learning and knowledge retention, as well as persistence and success in the degree. The study will compare academic performance among Mechanical Engineering B.S., Environmental Engineering B.S., and Civil Engineering B.S. students who begin a Physics for Engineers – Statics – Dynamics course prior to the intervention (control) and after the intervention (treatment). During control and treatment terms, students’ primary learning in individual courses will be assessed using established concept inventories. Retention of knowledge from pre-requisite courses will be tracked using pre-identified problem sets (quizzes, exams) specifically associated with interdependent learning outcomes in the Statics and Dynamics courses. Students’ primary learning and knowledge retention in the sequence will be related to longer term student success outcomes, including retention and graduation. The poster will show the results of the research team’s first year of work, including an analysis of current course materials, learning maps for each course, identification of interdependent learning outcomes, example guiding materials and templates for instructors, and preliminary student performance data from the control cohort. 

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3. The Design of a Course to Train STEM Pre-Service Teachers (Work-in-progress)

   Crosby, Garh V; Alaqra, Maram H; Simmons-Brooks, Pamela; Krauss, Morgan; Tornquist, Shelly; Yalvac, Bugrahan (June 2024, ASEE)

   In pre-college levels, integrated science, technology, engineering, and mathematics (STEM) are often taught by science or mathematics teachers. These teachers lack the engineering and technology background and they do not necessarily use project-based and inquiry-oriented instructional strategies. To close the gap in the qualified STEM education teacher workforce, the authors developed and piloted a novel course to train preservice STEM teachers to effectively employ project-based and inquiry-oriented teaching strategies at pre-college levels. This 3-credit research and design experience course was piloted in the Spring 2023 semester. The preservice STEM teachers, enrolled in the course, engaged in hands-on activities, engineering project-based training, inquiry-based learning techniques through research training, makerspace training, field experience, and mentorship. The course comprised two parts. In part I, the students received research training. In part II, the students engaged in engineering design and makerspace professional development. In this paper, we report on the course design elements and the impact of the course activities on students’ self-efficacy in teaching STEM subjects using emerging technology, as well as their teaching approaches and understanding of student learning. The authors conducted a mixed methods study and collected both qualitative and quantitative data. Preliminary results of the multiyear study are presented. Initial findings indicate a heightened confidence of the students in their ability to deliver STEM content in secondary classrooms. Students improved their teaching approaches and reported positive experiences with the course. 

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4. Guiding Students in Determining Fluid Velocity Profiles: A Practitioner Research Study Exploring the Role of Kinematics of Fluid Flow in a Foundry-Guided Lesson

   Ghassab, H; Mahajan, P; Arce-Trigatti, A; Arce, P E (March 2024, American Society for Engineering Education Southeastern Annual Meeting)

   In this contribution we expand on the critical role played by kinematic of flow in conjunction with the principle of the conversation of total mass in guiding students towards the observation skills, geometry, flow dimensions and total mass conservation in predicting the type of velocity functions as a prerequisite to the application of momentum conservation equations to determine the actual velocity profile. Adopting a practitioner-based approach, we leverage cycles of inquiry1 that are guided by the six elements of the Renaissance Foundry Model2 (herein the Foundry) to explore the role of kinematics of fluid flow as implemented in a undergraduate engineering curriculum. In particular, we identify the Challenge, review the fundamental concepts of the kinematics of the particle to formulate the Organization Tools, and identify related Resources to this challenge. Subsequently, Knowledge Acquisition will guide the understanding of important connections with the kinematic of flow, and then we will apply the Transfer of Knowledge to develop the fundamental aspects of the Prototype of Innovative Technology. This will be centered on a methodology useful to guide students in applying the concepts of kinematics of flows to obtain the fluid velocity functionality. The research will be illustrated with a case study relevant to the curriculum in chemical engineering in the context of ChE 3550, Fluid Mechanics, a core course in the chemical engineering curriculum. 

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5. Transitioning to Success: The Link between E-CTE and College Preparation for Students with Learning Disabilities in the United States

   https://doi.org/10.3390/educsci14020116  

   Plasman, Jay S; Oskay, Filiz; Gottfried, Michael (February 2024, Education Sciences)

   In recent years, there has been a specific call to not only increase the number of engineering-trained individuals but also to address the lack of diversity in science, technology, engineering and mathematics (STEM) fields, including individuals with disabilities. In particular, students with learning disabilities (SWLDs) make up a large portion of all students and are, therefore, a crucial population on which to focus educational and career progression efforts. One potential means of promoting persistence along the STEM pipeline—engineering specifically—is through engineering career and technical education (E-CTE) coursework in high school. Using a nationally representative dataset, we explore how E-CTE participation links to college preparation and transition activities for SWLDs, including math SAT performance, dual credit course participation, college application, and FAFSA completion. Under our more rigorous school fixed-effects models, we find that E-CTE participation is associated with beneficial results across each of our outcomes. The implications are discussed. 

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