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1. The Mentoring Network of K-5 Educators and Engineering Researchers in an RET

   Evans, Gayle N ; Crippen, Kent J ; Simmons, Chelsey S ; Simmons, Renee N. ( June 2019 , 2019 ASEE Annual Conference & Exposition)

   Elementary school is the first opportunity most students have to learn about STEM; however, elementary teachers are sometimes the least confident and prepared to teach STEM concepts and practices. Research Experience for Teachers (RET) programs are an established form of K-12 teacher professional development in which teachers are invited to work as members of a laboratory research team to increase their enthusiasm, knowledge and experience in STEM fields. The Engineering for Biology: Multidisciplinary Research Experiences for Teachers (MRET) of Elementary Grades was a 7-week summer program in which teachers were embedded as contributing members of engineering laboratory research teams and was established with the goals of (1) increasing teacher knowledge of STEM concepts and practices, (2) fostering mentoring relationships among researchers and teachers in each laboratory, and (3) guiding the translation of the teachers’ laboratory experience into the classroom through the development of STEM learning units. This exploratory study focuses on the second goal, and involves the use of developmental network theory to discriminate mentoring among participants within the summer 2017 and 2018 cycles of MRET. Using data collected in daily observations as well as daily activity and conversation logs submitted by all participants during the lab experience, post participation surveys, and post program semi structured interviews, we have characterized a network of mentoring that existed within the lab portion of MRET as being multidirectional and potentially beneficial to all members, including researchers as well as teachers. This finding challenges the currently accepted assumption that teachers are the primary beneficiaries of mentoring within RET programs. If demonstrated to be appropriate and transferrable to the RET context, such a perspective could enhance our understanding of the experience and be used for maximizing the outcomes for all participants. 

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2. Partnering Undergraduate Engineering Students with Preservice Teachers to Design and Teach an Elementary Engineering Lesson Through Ed+gineering

   Gutierrez, K. ; Ringleb, S. ; Kidd, J. ; Ayala, O. ; Pazos, P. ; Kaipa, K. ( June 2020 , 2020 ASEE Virtual Annual Conference Content Access, Virtual Online)

   Major challenges in engineering education include retention of undergraduate engineering students (UESs) and continued engagement after the first year when concepts increase in difficulty. Additionally, employers, as well as ABET, look for students to demonstrate non-technical skills, including the ability to work successfully in groups, the ability to communicate both within and outside their discipline, and the ability to find information that will help them solve problems and contribute to lifelong learning. Teacher education is also facing challenges given the recent incorporation of engineering practices and core ideas into the Next Generation Science Standards (NGSS) and state level standards of learning. To help teachers meet these standards in their classrooms, education courses for preservice teachers (PSTs) must provide resources and opportunities to increase science and engineering knowledge, and the associated pedagogies. To address these challenges, Ed+gineering, an NSF-funded multidisciplinary collaborative service learning project, was implemented into two sets of paired-classes in engineering and education: a 100 level mechanical engineering class (n = 42) and a foundations class in education (n = 17), and a fluid mechanics class in mechanical engineering technology (n = 23) and a science methods class (n = 15). The paired classes collaborated in multidisciplinary teams of 5-8 undergraduate students to plan and teach engineering lessons to local elementary school students. Teams completed a series of previously tested, scaffolded activities to guide their collaboration. Designing and delivering lessons engaged university students in collaborative processes that promoted social learning, including researching and planning, peer mentoring, teaching and receiving feedback, and reflecting and revising their engineering lesson. The research questions examined in this pilot, mixed-methods research study include: (1) How did PSTs’ Ed+gineering experiences influence their engineering and science knowledge?; (2) How did PSTs’ and UESs’ Ed+gineering experiences influence their pedagogical understanding?; and (3) What were PSTs’ and UESs’ overall perceptions of their Ed+gineering experiences? Both quantitative (e.g., Engineering Design Process assessment, Science Content Knowledge assessment) and qualitative (student reflections) data were used to assess knowledge gains and project perceptions following the semester-long intervention. Findings suggest that the PSTs were more aware and comfortable with the engineering field following lesson development and delivery, and often better able to explain particular science/engineering concepts. Both PSTs and UESs, but especially the latter, came to realize the importance of planning and preparing lessons to be taught to an audience. UESs reported greater appreciation for the work of educators. PSTs and UESs expressed how they learned to work in groups with multidisciplinary members—this is a valuable lesson for their respective professional careers. Yearly, the Ed+gineering research team will also request and review student retention reports in their respective programs to assess project impact. 

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3. SEPs in RETs: Design and Development of an Observation Protocol

   Crippen, Kent J ; Evans, Gayle N ; Scherer, Christine G ; Spillman, Courtney ( January 2020 , 2020 ASTE International Conference)

   This study describes the design and development of an observation protocol for science and engineering practices (SEPs) experienced by teachers working in research laboratories under the auspices of Research Experiences for Teachers (RET). Development has proceeded iteratively through two-cycles of use and refinement based upon the observation of K-5 teachers working in engineering research laboratories as part of an NSF-funded RET site (EEC-1711543). This protocol offers the potential for looking inside the blackbox of apprenticed professional practice in the context of a research laboratory, which for K-12 teacher participants, has been previously only described through self-report. Data derived from this method, which can be viewed holistically or chronologically, can be used to triangulate and enhance other forms of data, for defining new processes or explaining outcomes and ultimately for enhancing programmatic functions. 

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4. Lessons learned from evaluating three virtual Research Experiences for Teachers (RET) programs using common instruments and protocols

   Larson, Jean S. ; O'Donnell, Megan ; Eustice, Kristi L. ; Nichol, Carolyn A. ; Jaskie, Kristen ; Spanias, Andreas S. ; Fransworth, Kimberly ; Blain Christen, Jenniffer M. ; Lee, Mi Yeon ( January 2021 , Review directory American Society for Engineering Education)

   Due to the COVID-19 crisis preventing face-to-face interaction, three National Science Foundation (NSF)-funded centers employed a virtual/remote format for their summer Research Experiences for Teachers (RET) Programs, reaching K-12 STEM teachers across the country. Teachers participated virtually from four different states by joining engineering research teams from four different universities in three different RET programs. Lab experiences depended on the nature of the research and institution-specific guidelines for in-lab efforts, resulting in some teachers conducting lab experiments with materials sent directly to their homes, some completing their experience fully online, and some completing portions of lab work in person on campus. Each teacher developed an engineering lesson plan based on the corresponding center’s research to be implemented either in person or virtually during the 2020-2021 academic school year. Research posters, created with support from graduate student and faculty mentors, were presented to industry partners, education partners, center members, and the NSF. Support for the teachers as they implement lessons, present posters, and disseminate their developed curricula, has continued throughout the year. Common survey and interview/focus group protocols, previously designed specifically for measuring the impact of engineering education programs, were adapted and used to separately evaluate each of the three virtual programs. Strengths and suggested areas of improvement will be explored and discussed to inform future use of the common evaluation instruments. Additionally, preliminary results, highlighting general successes and challenges of shifting RET programming to a virtual/remote format across the three centers, will be discussed. 

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5. The Laboratory Practice of K-5 Teachers in an Engineering RET: Triangulating Perceptions and Experience

   Crippen, K ; Evans, G ; Simmons, C ( January 2021 , Proceedings of the Annual Meeting of the American Society for Engineering Education)

   This study advances our team’s overall design and development goal of creating a valid and reliable observation protocol for science and engineering practices (SEPs) experienced by teachers working in research laboratories under the auspices of Research Experience for Teachers (RET). This protocol offers the potential for addressing a wide range of persistent questions related to the experience of RET participants by looking inside the blackbox of apprenticed professional research practice. Framed by cognitive apprenticeship and situated in an engineering RET for K5 teachers, we independently document the SEPs that were consistently experienced across laboratory contexts and thus define a generalized teacher experience. Further, we identify key associations among the teacher's perception of their work, an independent observation of that activity and the perceptions reported by their graduate student mentors. Findings indicate that teacher participants’ perceptions of involvement and not actual experience was a more important predictor of confidence in practice. Perhaps most striking was the negative relationship between teacher confidence when working with mentors (r = -.242), which is similarly described by the mentors for working with teachers (r = -.356). This implies a strong need for further work and support for helping these unique individuals to understand each other’s goals and perspectives and for finding a way to work together that generates mutual feelings of confidence and satisfaction. 

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